US5U1TR中文资料

SM-G9910SM-G9960SM-G9980Taiwan. 01/2021. Rev.1.0/tw功能表基本功能4 請先參閱說明文件7 裝置過熱情形與解決方法10 主要功能11 裝置部位圖和功能17 給電池充電21 SIM 或 USIM 卡 (Nano-SIM 卡)23 開啟和關閉裝置24 初始設定24 三星帳號25 從先前的裝置傳輸資料 (SmartSwitch)27 螢幕相關資訊35 通知面板37 擷取螢幕與錄製螢幕38 輸入文字應用程式與功能41 安裝或解除安裝應用程式42 電話45 聯絡人47 訊息48 網際網路49 相機66 媒體瀏覽器70 AR 區域75 Bixby77 Bixby Vision78 Bixby Routines80 多重視窗83 Samsung Pay85 Samsung Health86 Samsung Notes88 Samsung Members88 Samsung Kids89 Samsung Global Goals89 Galaxy Shop89 Galaxy Wearable89 日曆90 提醒91 語音錄製92 我的檔案92 時鐘92 計算機93 遊戲中心94 遊戲加速器95 SmartThings95 分享內容97 音樂分享98 Smart View99 連結至 Windows100 Samsung DeX106 S Pen (Galaxy S21 Ultra 5G) 109 Google 應用程式功能表136 帳號與備份136 三星雲端137 進階功能138 動作與手勢139 Dual Messenger 140 數位健康與家長監護140 電池與裝置維護140 最佳化您的裝置141 電池141 儲存位置142 記憶體142 裝置防護142 應用程式142 一般管理143 協助工具144 軟體更新144 關於手機附錄145 協助工具159 疑難排解165 注意事項設定110 簡介110 三星帳號110 連接111 Wi-Fi 113 藍牙114 NFC 及感應式支付115 數據節省工具115 僅使用行動數據的應用程式115 行動無線基地台116 更多連線設定117 音效與震動118 音質與音效118 隔離應用程式音效119 通知119 顯示螢幕120 動態流暢度121 變更螢幕模式或調整螢幕顯示色彩122 桌布122 主題122 主螢幕122 鎖定螢幕123 Smart Lock 123 Always On Display 124 生物辨識與安全性125 臉部辨識127 指紋辨識130 Samsung Pass 132 安全資料夾135 隱私設定135 位置135 Google基本功能請先參閱說明文件使用裝置之前，請先閱讀本手冊，以確保安全和妥善使用。

1.5V Drive Pch+Pch MOSFETUS6J11z StructureSilicon P-channel MOSFETz Features1) Two Pch MOSFET transistors in a single TUMT6 package.2) Mounting cost and area can be cut in half. 3) Low on-resistance.4) Low voltage drive (1.5V) makes this device ideal for portable equipment. 5) Drive circuits can be simple.z ApplicationSwitchingz Packaging specificationsz Absolute maximum ratings (Ta=25°C)∗1∗2∗1ParameterV V DSS Symbol V V GSS A I DA I DP A I SAI SP W / TOTAL P D °C Tch °CTstgLimits Unit Drain-source voltage Gate-source voltage Drain current Total power dissipation Channel temperatureRange of Storage temperatureContinuous PulsedContinuous Pulsed∗1 Pw ≤10µs, Duty cycle ≤1%∗2 When mounted on a ceramic boardSource current (Body diode)−12150−55 to +150±10±1.3±5.2−0.5−5.21.0W / ELEMENT0.7z Thermal resistanceParameter°C/W / TOTAL Rth(ch-a)Symbol Limits UnitChannel to ambient∗ When mounted on a ceramic board125°C/W / ELEMENT179∗∗ Pulsedz Body diode characteristics (Source-drain) (Ta=25°C)V SD−−−1.2V I S = −1.3A, V GS =0VForward voltageParameterSymbol Min.Typ.Max.Unit Conditions∗ Pulsed∗00.511.52101001000100000.010.1110101001000100000.010.1110101001000100000.010.11100.11100.010.1110101001000100000.010.1110Fig.1 Ty pical output characteristics( I )Fig.2 Ty pical output characteristics( ΙΙ )Fig.3 Ty pical Transfer CharacteristicsFig.4 Static Drain-Source On-State Resistance v s. Drain Current( Ι )Fig.5 Static Drain-Source On-State Resistance v s. Drain Current(ΙΙ)Fig.6 Static Drain-Source On-StateResistance v s. Drain Current(ΙΙΙ)Fig.7 Static Drain-Source On-State Resistance v s. Drain Current(IV)Fig.9 Forward Transfer Admittance v s. Drain CurrentD R A I N C U R RE N T : -I D [A ]DRAIN-SOURCE VOLTAGE : -V DS [V]DRAIN-SOURCE VOLTAGE : -V DS [V]GATE-SOURCE VOLTAGE : -V GS [V]DRAIN-CURRENT : -I D [A]S T A T I C D R A I N -S O U R C E O N -ST A T E R E S I S T A N C E : R D S (O N )[m Ω]DRAIN-CURRENT : -I D [A]S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (O N )[m Ω]DRAIN-CURRENT : -I D [A]S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (O N )[m Ω]DRAIN-CURRENT : -I D [A]S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (O N )[m Ω]F O R W A R D T R A N S F E R A D M I T T A N C E : |Y f s | [S ]DRAIN-CURRENT : -I D [A]101001000100000.010.1110Fig.8 Static Drain-Source On-State Resistance v s. Drain Current(V)DRAIN-CURRENT : -I D [A]S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (O N )[m Ω]z Measurement circuitsFig.1-1 Switching time measurement circuitV DSFig.1-2 Switching waveformsVVFig.2-1 Gate charge measurement circuitIV DSFig.2-2 Gate charge waveformVz NoticeThis product might cause chip aging and breakdown under the large electrified environment. Please consider to design ESD protection circuit.00.51 1.52 2.530.010.1110100Fig.13 Dy namic Input Characteristics Fig.14 Ty pical Capacitancev s. Drain-Source VoltageTOTAL GATE CHARGE : Qg [nC]DRAIN-SOURCE VOLTAGE : -V DS[V]NoticeN o t e sNo copying or reproduction of this document, in part or in whole, is permitted without theconsent of ROHM Co.,Ltd.The content specified herein is subject to change for improvement without notice.The content specified herein is for the purpose of introd ucing ROHM's prod ucts (hereinafter"Products"). If you wish to use any such Product, please be sure to refer to the specifications,which can be obtained from ROHM upon request.Examples of application circuits, circuit constants and any other information contained hereinillustrate the standard usage and operations of the Products. The peripheral conditions mustbe taken into account when designing circuits for mass production.Great care was taken in ensuring the accuracy of the information specified in this document.However, should you incur any d amage arising from any inaccuracy or misprint of suchinformation, ROHM shall bear no responsibility for such damage.The technical information specified herein is intended only to show the typical functions of andexamples of application circuits for the Prod ucts. ROHM d oes not grant you, explicitly orimplicitly, any license to use or exercise intellectual property or other rights held by ROHM andother parties. ROHM shall bear no responsibility whatsoever for any dispute arising from theuse of such technical information.The Products specified in this document are intended to be used with general-use electronicequipment or devices (such as audio visual equipment, office-automation equipment, commu-nication devices, electronic appliances and amusement devices).The Products specified in this document are not designed to be radiation tolerant.While ROHM always makes efforts to enhance the quality and reliability of its Prod ucts, aProduct may fail or malfunction for a variety of reasons.Please be sure to implement in your equipment using the Products safety measures to guardagainst the possibility of physical injury, fire or any other d amage caused in the event of thefailure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHMshall bear no responsibility whatsoever for your use of any Product outside of the prescribedscope or not in accordance with the instruction manual.The Products are not designed or manufactured to be used with any equipment, device orsystem which requires an extremely high level of reliability the failure or malfunction of whichmay result in a direct threat to human life or create a risk of human injury (such as a medicalinstrument, transportation equipment, aerospace machinery, nuclear-reactor controller,fuel-controller or other safety device). ROHM shall bear no responsibility in any way for use ofany of the Products for the above special purposes. If a Product is intended to be used for anysuch special purpose, please contact a ROHM sales representative before purchasing.If you intend to export or ship overseas any Product or technology specified herein that maybe controlled under the Foreign Exchange and the Foreign Trade Law, you will be required toobtain a license or permit under the Law.Thank you for your accessing to ROHM product informations.More detail product informations and catalogs are available, please contact us.ROHM Customer Support System/contact/分销商库存信息: ROHMUS6J11TR。

MIC2090/MIC2091Current Limiting Power Distribution SwitchesMicrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • General Description The MIC2090 and MIC2091 are high-side MOSFET power switches optimized for general-purpose 50mA or 100mA low power distribution in circuits requiring over-current limiting and circuit protection. Typical applications for these parts are for switching power in USB ports, portable consumer items, camera and camcorder motor protection, thermal printer head protection, and many other low current-load switching applications.The MIC2090 and MIC2091 come in two versions: auto-retry current limit and output latch off on an over current fault. The MIC2090 and MIC2091 are offered in a space saving 5-pin SOT-23 package with an operating junction temperature range of -40°C to +125°C.Data sheets and support documentation can be found on Micrel’s web site at: .Features• 1.8V to 5.5V supply voltage • 790 m Ω typical R DSON at 3.3V• MIC2090 is rated for 50mA minimum continuous current • MIC2091 is rated for 100mA minimum continuous current• Reverse current blocking (OGI)• 20ns super fast reaction time to hard short at output • 10ms fault flag delay (t D_FAULT/) eliminates false assertions• Auto-retry overcurrent and short-circuit protection (-1 version)• Latch-off on current limit (-2 version) • Thermal shutdown• Fault status flag indicates: over-current, over-temperature, or UVLO• Under-voltage lockout (UVLO) • Low quiescent currentApplications• USB peripherals • Camcorder • DSC• MP3/iPod • SD protection• USB low-power hub_________________________________________________________________________________________________________________________Typical ApplicationMIC2091 USB Power SwitchStartup into Short CircuitOrdering InformationPart NumberMarkingCurrentLimitCurrent-Limit RecoveryJunction TemperatureRangePackage MIC2090-1YM5 L1K 50mA Auto-Retry –40°C to +125°C SOT-23-5 MIC2091-1YM5 M1K 100mA Auto-Retry –40°C to +125°C SOT-23-5 MIC2090-2YM5 L2K 50mA Latch-Off –40°C to +125°C SOT-23-5 MIC2091-2YM5 M2K 100mA Latch-Off–40°C to +125°CSOT-23-5Pin Configuration5-Pin SOT-23 (M5)Pin DescriptionPin NumberPin NamePin Function1 VINSupply (Input): +1.8V to +5.5V. Provides power to the output switch and the MIC2090/MIC2091internal control circuitry. 2 GND Ground.3 ENEnable (Input): Active-high TTL compatible control input. A high signal turns on the internal switch and supplies power to the load. This pin cannot be left floating.4 FAULT/Fault Status (Output): Open drain output. Can be connected to other open drain outputs. Must be pulled high with an external resistor. When EN=0, FAULT/ pin is highWhen EN=1, a low on the FAULT/ pin indicates one or more of the following conditions: 1. The part is in current limit and is turned off.2. The part is in thermal limit and is turned off.3. The part is in UVLO5 VOUTSwitched Output (Output): The voltage on this pin is controlled by the internal switch. Connectthe load driven by the MIC2090/MIC2091 to this pin.Absolute Maximum Ratings (1)Supply Voltage (V IN ).....................................−0.3V to +6.0V Output Voltage (V OUT )..................................−0.3V to +6.0V FAULT/ Pin Voltage (V FAULT/).......................−0.3V to +6.0V FAULT/ Pin Current (I FAULT/).......................................25mA EN Pin Voltage (V EN )...........................−0.3V to (V IN + 0.3V) Power Dissipation (P D )..............................Internally Limited Maximum Junction Temperature (T J ).........................150°C Storage Temperature (T S ).........................−65°C to +150°C Lead Temperature (soldering, 10s)............................260°C ESD HBM Rating (3).........................................................3kV ESD MM Rating (3) (200V)Operating Ratings (2)Supply Voltage (V IN ).....................................+1.8V to +5.5V Output Voltage (V OUT )..................................+1.8V to +5.5V EN Pin Voltage (V EN )..............................................0V to V IN FAULT/ Pin Voltage (V FAULT/)..............................0V to 5.5V FAULT/ Pin Current (I FAULT/).........................................1mA Ambient Temperature (T A )..........................–40°C to +85°C Junction Temperature (T J )........................–40°C to +125°C Package Thermal Resistance SOT23-5 (θJA )...............................................252.7°C/WElectrical Characteristics (4)V IN = 5V; T A = 25°C, bold values indicate –40°C ≤ T A ≤ +85°C, unless noted. Symbol Parameter Condition Min. Typ. Max. Units Power Input SupplyV IN Input Voltage Range1.8 5.5 V Shutdown CurrentV EN ≤ 0.5V (switch off), V OUT = open 5 10 I VINSupply Current V EN ≥ 1.5V (switch on), V OUT = open 70 110 µAV UVLO Under-Voltage LockoutThresholdV IN rising 1.75 V V UVLO_HYS Under-Voltage Lockout Threshold Hysteresis100mVEnable Input Enable Logic Level High (5)V IH (MIN) 1.5 V EN Enable Logic Level Low (5)V IL (MAX) 0.5 V I EN Enable Bias Current V EN = 5V0.1 µA t ON Output Turn-On Delay R L = 500Ω, C L = 0.1µF See “Timing Diagrams” 215 µs t R Output Turn-On Rise Time R L = 500Ω, C L = 0.1µF See “Timing Diagrams”5 µs t OFF Output Turn-Off Delay R L = 500Ω, C L = 0.1µF See “Timing Diagrams” 125 µs t FOutput Turn-Off Fall TimeR L = 500Ω, C L = 0.1µF See “Timing Diagrams” 115 µsInternal SwitchMIC2090 V IN = 5.0V, I OUT = 50mA 700 1200 MIC2090 V IN = 3.3V, I OUT = 50mA 790 1200 MIC2090 V IN = 1.8V, I OUT = 50mA 1300 MIC2091 V IN = 5.0V, I OUT = 100mA 700 1200 MIC2091 V IN = 3.3V, I OUT = 100mA 790 1200 R DSON On Resistance R DS(ON) MIC2091 V IN = 1.8V, I OUT = 100mA1300 m ΩInput-to-Output LeakageCurrent (Forward leakage Current)MIC2090 and MIC2091, V EN ≤ 0.5V, (output off), V IN = 5.5V, V OUT = 0V10μAElectrical Characteristics (4) (Continued)V IN = 5V; T A = 25°C, bold values indicate –40°C ≤ T A ≤ +85°C, unless noted. Symbol Parameter ConditionMin. Typ. Max. UnitsOutput to Input LeakageCurrent (Reverse LeakageCurrent)MIC2090 and MIC2091, V EN ≤ 0.5V, (outputoff), V OUT = 5.5V, V IN = 0V10µACurrent LimitMIC2090 @ V OUT = 4.5V50 75 100 MIC2090 @ V OUT = 0V50 100 150 MIC2091 @ V OUT = 4.5V100 150 200 I LIMIT Current-Limit ThresholdMIC2091 @ V OUT = 0V100 175 250 mAt SC_RESPShort-Circuit Response TimeShort circuit applied to output after switch is turned on, see “Timing Diagrams”. V IN = 3.3V.20ns T AUTORESTART Time After Switch Shuts Down From An Over-Current Condition Before It Tries To Turn On Again.30 60 90 msFAULT/ FlagError Flag Output Voltage Output voltage high (1mA Sinking)0.4 Vt D_FAULT/ Time After Switch Comes Into Current Limit Before The PIN FAULT/ Is Pulled Low.When an over-current condition happens, the part will go into constant output current for this time. After this time it will turn off the output and pull low the PIN FAULT/. The MIC2090-1 and MIC2091-1 will automatically restart themselves after the auto restart time T AUTORESTART .5 10 20 mst R_FAULT/ FAULT/ Rising Time FAULT/ is connected to V IN = 5V through 10k Ω and 100pF in parallel. See “Timing Diagrams”5 µs t F_FAULT/ FAULT/ Falling Time1µsReverse Voltage Protection (OGI) OGIOutput Voltage GreaterThan Input Voltage (OGI) If the output voltage is greater than the input voltage by this amount, the part will shut down. The enable pin must be recycled to reset. 85 mVOGI TIMETime that the output voltage can be greater than the input voltage before the chip is shut down.10 msThermal Protection T J Rising 150T OVERTEMPOver-TemperatureShutdownT J Falling140 °CNotes: 1. Exceeding the absolute maximum rating may damage the device. 2. The device is not guaranteed to function outside its operating rating.3. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF.4.Specification for packaged product only.5. V IL(MAX) = Maximum positive voltage applied to the input which will be accepted by the device as a logic low.V IH(MIN) = Minimum positive voltage applied to the input which will be accepted by the device as a logic high.Timing DiagramsOutput Rise and Fall Times (t R, t F)Switch Delay Time (t ON, t OFF)Typical CharacteristicsFunctional Characteristics分销商库存信息:MICRELMIC2091-2YM5 TR MIC2090-2YM5 TR MIC2090-1YM5 TR MIC2091-1YM5 TR。

SY58051UUltra-Precision CML AnyGate ®with Internal Input and Output TerminationPrecision Edge ®AnyGate and Precision Edge are registered trademarks of Micrel, Inc.MLF and Micro LeadFrame are registered trademarks of Amkor Technology, Inc.Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • General DescriptionThe SY58051U is an ultra-fast, low jitter universal logic gate with a guaranteed maximum data or clock throughput of 10.7Gbps or 7GHz, respectively. This AnyGate ® differential logic device will produce many logic functions of two Boolean variables, such as AND, NAND, OR, NOR, DELAY, or NEGATION.The SY58051U differential inputs include a unique internal termination design that allows access to the termination network throughout a V T pin. This feature allows the device to easily interface to different logic standards, both AC- and DC-coupled without external resistor-bias and termination networks. The result is a clean, stub-free, low-jitter interface solution. The differential CML output is optimized for environments with internal 50Ω source termination and a 400mV output swing.The SY58051U operates from a 2.5 or 3.3V supply, andis guaranteed over the full industrial temperature range (-40°C to +85°C). The SY58051U is part of Micrel’s Precision Edge® product family.All support documentation can be found on Micrel’s web site at .Typical ApplicationPrecision Edge ®Features• Three matched-delay input pair provide any logic function: AND, NAND, OR, NOR• Guaranteed AC performance over temperature and • voltage:• DC to > 10.7Gbps data rate throughput • DC to > 7GHz clock f MAX • <190ps Any In-to-Out t pd • t r / t f < 60ps• Ultra low-jitter design: • <1ps RMS random jitter• <10ps PP deterministic jitter • <10ps PP total jitter (clock)• Unique input termination and V T pin accepts DC- coupled and AC-coupled inputs (CML, PECL) • Internal 50Ω output source termination• Typical 400mV CML output swing (R IN = 50Ω) • Internal 50Ω input termination• Power supply 2.5V ±5% or 3.3V ±10% • –40°C to 85°C temperature range• Available in a 16-pin (3mm × 3mm) QFN ® packageApplications• Data communication systems • OC-192, OC192+FEC• All SONET OC-3—OC-768 applications • All Fibre Channel applications • All GigE applicationsOrdering InformationPart Number PackageTypeOperationalRangePackage MarkingSY58051UMG(3)Pb-free QFN-16 Industrial051U withPb-Free bar-line indicatorSY58051UMGTR(2, 3)Pb-free QFN-16 Industrial051U withPb-Free bar-line indicatorPin Configuration16-Pin QFN® (QFN-16)Pin DescriptionPin NumberPin NamePin Function1 VT Input Termination Center Tap: Each of the two inputs, (A, /A) terminates to this pinthrough a50Ω resistor. The VTA pin provides a center-tap to a termination network formaximum interface flexibility. See “Input Interface Applications” section for more details. 15, 16 2, 3A, /A B, /BDifferential Input: These input pairs are the two data inputs to the device. Each pin of a pair 2, 3 B, /B internally terminates to the VTA or VTB pin to 50Ω. Note that these inputs will default to an indeterminate state if left open. See “Input Interface Applications” section for more details.4 VTB Input Termination Center Tap: Each of the two inputs, (B, /B) terminates to this pinthrough a 50Ω resistor. The VTB pin provides a center-tap to a termination network formaximum interface flexibility. 5, 6S, /SDifferential Input: This input pair is the select input to the device. Each pin of this pair internally terminates to the VTS pin to 50Ω. Note that this input will default to an indeterminate state if left open. See “Input Interface Applications” section for more details.7 VTSInput Termination Center Tap: Each of the two inputs, S, /S terminates to this pin. TheVTS pin provides a center-tap to a termination network for maximum interface flexibility. 8, 13 VCC Positive Power Supply. Bypass with 0.1µF0.01µF low ESR capacitors.12, 9 Q, /Q Differential Output: This CML output pair is the output of the device. It is a logic function of the A, B, and S inputs. See “Truth Tables” for details.10, 11, 14GNDGround. Exposed pad must be connected to the same potential as GND pin.Truth TablesA /AB /B S /S Q /Q0 1 X X 0 1 0 11 0 X X 0 1 1 0X X 0 1 1 0 01X X 1 0 1 0 1 0AND/NANDDELAY/NEGATIONDELAY/NEGATION2:1 MUXAbsolute Maximum Ratings (1)Supply Voltage (V CC ).......................................−0.5 to +4.0V Input Voltage (V IN ).............................................-0.5V to V CC CML Output Voltage (V OUT ).........V CC to -1.0V to V CC +0.5V Termination Current (3)Source or Sink Current on V TA , V TB , V TS ................±60mA Input CurrentSource or Sink Current on A, /A, B , /B, S, /S.........±30mA Lead Temperature (soldering, 20 sec.)....................+260°C Storage Temperature (T S .).........................-65°C to +150°COperating Ratings (2)Supply Voltage (V CC ).......................+2.375V to +2.625V or +3.0°C to +85°C Ambient Temperature (T A ).....................−40°C to +85°C Package Thermal Resistance (4)PDIP (θJA )Still-Air....................................................61°C/WQFN (ψJB )............................................................38°C/WDC Electrical Characteristics (5)TA = —40°C to +85°C, unless otherwise noted.Notes: 1.Permanent device damage may occur if the ratings in the “Absolute Maximum Ratings” section are exceeded. This is a stress rating only andfunctional operation is not implied for conditions other than those detailed in the operational sections of this data sheet. Exposure to absolute maximum ratings conditions for extended periods may affect device reliability.2. The data sheet limits are not guaranteed if the device is operated beyond the operating ratings.3. Due to the limited drive capability use for input of the same package only.4. Package thermal resistance assumes exposed pad is soldered (or equivalent) to the devices most negative potential on the PCB. ΨJB uses 4-layer θJA n still-air, unless otherwise stated.5. The circuit is designed to meet the DC specifications shown in the above table after thermal equilibrium has been established.6.Due to the internal termination (see Figure 1a) the input current depends on the applied voltages at A, /A and V TA inputs, the B, /B and V TB inputs or the S, /S and V TS inputs. Do not apply a combination of voltages that causes the input current to exceed the maximum limit.Symbol Parameter Condition Min. Typ. Max. Units V CC Power Supply V CC = 2.5V. V CC = 3.3V. 2.375 3.02.53.32.6253.6V VI CC Power Supply Current No Load, max. V CC .55 70 mAR DIFF_IN Differential Input Resistance (A-to/A, B-to-/B or S-to/S) 80 100 120 Ω R IN Input Resistance(A-to-V TA , B-to-V TB or S-to-V TS ) 40 50 60 Ω V IH Input HIGH Voltage (A, /A or B, /B or S, /S) Note 6 1.2 V CCVV IL Input LOW Voltage (A, /A or B, /B or S, /S) Note 6 0 V IH -0.1 mV V IN Input Voltage Swing (A, /A or B, /B or S, /S) Note 6See Figure 2a. 100 mV V DIFF_IN Differential Input Voltage Swing ІA-, /A І or ІB-, /B І or S-, /S І Note 6See Figure 2b. 200 mV ІІIN ІInput Current(A, /A or B, /B or S, /S)Note 621 mACML Electrical Characteristics (5)V CC = 2.5V ±5% or 3.3V ±10%; R L =100Ω across output pair or equivalent; T A = -40°C to +85°C; unless otherwise noted. Symbol Parameter Condition Min. Typ Max Units V CH Output HIGH Voltage Q, /QV CC—0.020V CC 3.6 V V OUT Output Voltage Swing Q, /Q See Figure 2a. 325 400 500 mV V DIFF_OUT Differential Output Voltage Swing Q, /QSee Figure 2b. 6508001000mVR OUTOutput Source Impedance Q, /Q40 50 60 ΩAC Electrical Characteristics (8)V CC = 2.5V ±5% or 3.3V ±10%; R L =100Ω across output pair or equivalent; T A = -40°C to +85°C; unless otherwise noted. Symbol Parameter Condition MinTyp Max UnitsF MAX Maximum Operating Frequency Clock NRZ Data10.7 7GHzGbpst pd Propagation Delay Any Input(A, B, S)-to-Q 70 190 ps t SKEWPart-to-Part Skew Note 9 100 ps DataRandom Jitter (RJ) Note 101 ps RMS Deterministic Jitter (DJ) Note 1110 ps PP ClockCycle-to-Cycle Jitter (RJ) Note 121 ps RMS t JITTERTotal Jitter (TJ) Note 1310 ps PP T R, t fOutput Rise/Fall Times (20% to 80%) At full output swing.20 60 psNotes: 7. The circuit is designed to meet the DC specifications shown in the above table after thermal equilibrium has been established.8. Measured with 100mV input swing. See “Timing Diagrams” section for definition of parameters. High-frequency AC parameters are guaranteed bydesign and characterization.9.Skew is defined for two parts with identical power supply voltages at the same temperature and with no skew of the edges at the respective inputs.10. Random jitter is measured with a K28.7 comma detect character pattern, measured at 2.5Gbps/3.2Gbps. 11. Deterministic jitter is measured at 2.5Gbps/3.2Gbps with both K28.5 and 223–1 PRBS pattern.12. Cycle-to-cycle jitter definition: the variation of periods between adjacent cycles, T n –T n–1 where T is the time between rising edges of the outputsignal. 13. Total jitter definition: with an ideal clock input of frequency f MAX , no more than one output edge in 1012output edges will deviate by more than thespecified peak-to-peak jitter value .≤Functional Block DiagramTiming DiagramInput and Output Stage Internal TerminationFigure 1a. Simplified Differential Input Stage Figure 1b. Simplified Differential Output StageDefinition of Single-Ended and Differential SwingsFigure 2a. Single-Ended Swing Figure 2b. Differential SwingTypical Operating CharacteristicsFunctional CharacteristicsInput Interface ApplicationsFigure 3a. Static Input Level Figure 3b. LVDS Interface(DC-Coupled)Figure 3c. CML Interface(DC-Coupled)Figure 3d. CML Interface(AC-Coupled)Figure 3e. PECL Interface(DC-Coupled)Figure 3f. PECL Interface(AC-Coupled)Related Product and Support DocumentationPart Number Function Data Sheet LinkSY58016L 3.3V 10Gbps Differential CMLLine Driver/Receiver withInternal Termination/product-info/products/sy58016I.shtml10Gbps Clock/Data Retimerwith 50Ώ Input TerminationSY58052U /product-info/products/sy58052u.shtmlQFN® Application Note /products/notes_papers/MLF_AppNote_0902.pdfNew Products andApplicationsHBW Solutions /product-info/products/solutions.shtml16-PIN Micro LeadFrame ®(MLF-16)PCB Thermal Consideration for 16-Pin QFN® Package (Always solder, or equivalent, the exposed pad to the PCB)。

US1中文资料DISCRETE SEMICONDUCTORS DATA SHEETbook, halfpageM3D168US1 seriesSMA ultra fast low-losscontrolled avalanche rectifiersProduct speci?cation2000Feb14controlled avalanche recti?ersUS1 seriesFEATURESGlass passivatedHigh maximum operating temperatureIdeal for surface mount automotive applications ?Low leakage currentExcellent stabilityGuaranteed avalanche energy absorption capability ?UL94V-O classified plastic packageShipped in 12mm embossed tapeMarking: cathode, date code, type codeEasy pick and place.DESCRIPTIONDO-214AC surface mountable package with glass passivated chip.The well-defined void-free case is of a transfer-moulded thermo-setting plastic.The small rectangular package has two J bent leads.olumnsMSA474 Top view Side viewcathodebandk aFig.1 Simplified outline (DO-214AC) and symbol.LIMITING VALUESIn accordance with the Absolute Maximum Rating System (IEC134).SYMBOL PARAMETER CONDITIONS MIN.MAX.UNIT V RRM repetitive peak reverse voltageUS1A?50VUS1B?100VUS1D?200VUS1G?400VUS1J?600VV R continuous reverse voltageUS1A?50VUS1B?100VUS1D?200VUS1G?400VUS1J?600VV RMS root mean square voltageUS1A?35VUS1B?70VUS1D?140VUS1G?280VUS1J?420VI F(AV)average forward current averaged over any 20ms period;T tp=110°C; see Fig.21Acontrolled avalanche recti?ersUS1 seriesELECTRICAL CHARACTERISTICS T j =25°C unless otherwise speci?ed.THERMAL CHARACTERISTICS Notes1.Device mounted on Al 2O 3 printed-circuit board, 0.7mm thick; thickness of copper ≥35μm.2.Device mounted on epoxy-glass printed-circuit board, 1.5mm thick; thickness of copper ≥40μm. For moreinformation please refer to the ‘General Part of associated Handbook’.I FSMnon-repetitive peak forward currentt =8.3ms half sine wave;T j =25°C prior to surge;V R =V RRMmax ?25AT stg storage temperature ?65+175°C T jjunction temperatureSee Fig.365+175°CSYMBOL PARAMETER CONDITIONSTYP .MAX.UNITV Fforward voltage I F =1A;US1A to US1G see Fig.4? 1.1V US1J see Fig.51.4V I R reverse current V R =V RRMmax ; see Figs 6and 710μA V R =V RRMmax ; T j =165°C; see Figs 6and 7?50μA trr reverse recovery time when switched from I F =0.5A to I R =1A;measured at I R =0.25A; see Fig.12?50nsC ddiode capacitance V R =4V; f =1MHz;US1A to US1G see Fig.814?pF US1Jsee Fig.910pFSYMBOL PARAMETERCONDITIONSVALUE UNIT R th j-tp thermal resistance from junction to tie-point; see Fig.1027K/W R th j-a thermal resistance from junction to ambientnote 1100K/W note 2150K/WSYMBOL PARAMETERCONDITIONSMIN.MAX.UNITcontrolled avalanche recti?ersUS1 seriesGRAPHICAL DATAhandbook, halfpage 04020021.50.5180T tp (°C)I F(AV)(A)120160MCD822Fig.2Maximum permissible average forward current as a function of tie-pointtemperature (including losses due to reverse leakage).V R =V RRMmax ;δ=0.5; a =1.57.handbook, halfpage0100V R (%V Rmax )T j (°C)20010050MBK455Device mounted as shown in Fig.11.Solid line: Al 2O 3 printed-circuit board.Dotted line: epoxy printed-circuit board.Fig.3Maximum permissible junction temperature as a function of reverse voltage.handbook, halfpage32V F (V)I F(A)10MCD79210210110?110?210?3US1A to G T j =25°C.Fig.4Forward current as a function of forward voltage; typical values.handbook, halfpage42I F (A)V F (V)103MCD79310210110?110?210?3US1JT j =25°C.Fig.5Forward current as a function of forward voltage; typical values.controlled avalanche recti?ersUS1 serieshandbook, halfpage10002040V R (%V Rmax )I R (μA)608010210110?110?210?3MCD807T j = 165 °CT j = 25 °CFig.6Reverse current as a function of reverse voltage; typical values.US1A to Gf =1MHz; T j =25°C.handbook, halfpage10002040V R (%V Rmax )I R (μA)608010210110?110?210?3MCD806T j = 165 °CT j = 25 °CFig.7Reverse current as a function of reverse voltage; typical values.US1Jf =1MHz; T j =25°C.handbook, halfpage102101MCD79810?210?11V R (V)C d (pF)10102Fig.8Diode capacitance as a function of reverse voltage; typical values.US1 A to Gf =1MHz; T j =25°C.handbook, halfpage102101MCD79710?210?11V R (V)C d (pF)10102US1Jf =1MHz; T j =25°C.Fig.9Diode capacitance as a function of reverse voltage; typical values.controlled avalanche recti?ersUS1 serieshandbook, halfpage102101MBL120110Z th j-tp (K/W)102103t p (ms)104Fig.10Transient thermal impedance as a functionof pulse width.MSB2134.52.51.255050Fig.11 Printed-circuit board for surface mounting.Dimensions in mm.Material: Al 2O 3 or epoxy-glass.handbook, full pagewidth10 ?1 ?50 ?25 VDUT MAM057+t rr0.500.51.0I F (A)I R (A)t0.25Fig.12 Test circuit and reverse recovery time waveform and definition.Input impedance oscilloscope: 1M ?, 22pF; t r ≤7ns.Source impedance: 50?; t r ≤15ns.controlled avalanche recti?ersUS1 seriesPACKAGE OUTLINEREFERENCESOUTLINE VERSION EUROPEAN PROJECTIONISSUE DATE IECJEDEC EIAJSOD12499-10-22DO-214AC0 2.5 5 mmscaleTransfer-moulded thermo-setting plastic small rectangular surface mounted package;2 connectorsSOD124UNIT b A 1c D E Q mm1.61.40.20.052.82.44.54.3H 5.55.13.32.7DIMENSIONS (mm are the original dimensions)A 2.32.0DH AE b(1)A 1QcNote1. The marking band indicates the cathode.controlled avalanche recti?ersUS1 seriesDEFINITIONS LIFE SUPPORT APPLICATIONSThese products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale.Data sheet status Objective speci?cation This data sheet contains target or goal speci?cations for product development.Preliminary speci?cation This data sheet contains preliminary data; supplementary data may be published later.Product speci?cation This data sheet contains ?nal product speci?cations.Limiting valuesLimiting values given are in accordance with the Absolute Maximum Rating System (IEC 60134).Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the speci?cation is not implied. Exposure to limiting values for extended periods may affect device reliability.Application informationWhere application information is given, it is advisory and does not form part of the speci?cation.US1 series controlled avalanche recti?ersNOTESUS1 series controlled avalanche recti?ersNOTESUS1 series controlled avalanche recti?ersNOTESPhilips Electronics N.V.SCA All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.The information presented in this document does not form part of any quotation or contract,is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights.Internet:/doc/2ec84a2e0722192e4536f6ec.html 200069Philips Semiconductors – a worldwide companyFor all other countries apply to: Philips Semiconductors,International Marketing &Sales Communications, Building BE-p, P.O.Box 218,5600MD EINDHOVEN, The Netherlands,Fax.+31402724825Argentina: see South America Australia: 3 Figtree Drive, HOMEBUSH, NSW 2140,Tel.+61297048141,Fax.+61297048139Austria:Computerstr. 6, A-1101 WIEN, P.O. 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Transistor1/52.5V Drive Pch+SBD MOSFETUS5U38z StructureSilicon P-channel MOSFET Schottky Barrier DIODEz Features1) The US5U38 combines Pch MOSFET with a Schottky barrier diode in a TUMT5 package. 2) Low on-resistance with fast switching. 3) Low voltage drive (2.5V).4) Built-in schottky barrier diode has low forward voltage.z Applications SwitchingzPackaging specificationsz Absolute maximum ratings (T a=25°C)V RM V R I F I FSM Tj ParameterV V DSS Symbol −20V V GSS ±12A I D±1.0A I DP ±4.0A I S−0.4A I SP −4.0V 20A 0.7A 3.0°C150°CTch 150V 25Limits Unit Channel temperature <Di><MOSFET>W / ELEMENT P D 0.7Power dissipationW / TOTALP D 1.0°CTstg−55 to +150Power dissipationRange of storage temperature<MOSFET AND Di>Drain-source voltage Gate-source voltage Drain current Continuous PulsedContinuous PulsedSource current (Body diode)Repetitive peak reverse voltage Reverse voltage Forward currentForward current surge peak Junction temperature ∗1∗1∗3∗2W / ELEMENT P D0.5Power dissipation∗3∗3∗1 Pw ≤10µs, Duty cycle ≤1% ∗2 60Hz •1cyc. ∗3 Mounted on a ceramic boardz Dimensions (Unit : mm)Transistor2/5z Electrical characteristics (T a=25°C)V SD−−−1.2VI S =−0.4A, V GS =0VForward voltageParameterSymbol Min.Typ.Max.Unit Conditions<Body diode (source −drain)>V F −−0.49V I F =0.7A I R −−200µAV R =20VReverse currentForward voltage ParameterSymbol Min.Typ.Max.Unit Conditions<Di >Transistor3/5z Electrical characteristic curvesFig.1 Typical Transfer CharacteristicsGATE −SOURCE VOLTAGE : -V GS [V ]D R A I N C U R R E N T : −I D (A )Fig.2 Static Drain −Source On −State Resistance vs.Drain Current ( Ι )100100010000DRAIN CURRENT : −I D [A ]S T A T I C D R A I N −S O U R C E O N −S T A T E R E S I S T A N C E : R D S (o n )[m Ω]Fig.3 Static Drain −Source On −State Resistance vs.Drain Current ( ΙΙ )DRAIN CURRENT : −I D [A ]S T A T I C D R A I N −S O U R C E O N −S T A T E R E S I S T A N C E : R D S (o n )[m Ω]100100010000Fig.4 Static Drain −Source On −StateResistance vs.Drain −Current ( ΙΙΙ )DRAIN CURRENT : −I D [A ]S T A T I C D R A I N −S O U R C E O N −S T A T E R E S I S T A N C E : R D S (o n )[m Ω]2505007501000S T A T I C D R A I N −S O U R C E O N −S T A T E R E S I S T A N C E GATE −SOURCE VOLTAGE : −V GS [V ]Fig.5 Static Drain −Source On −StateResistance vs.Gate −Source Voltage: R D S (o n )[m Ω]Fig.6 Static Drain −Source On −State Resistance vs.Drain CurrentDRAIN CURRENT : −I D [A ]S T A T I C D R A I N -S O U R C E O N −S T A T E R E S I S T A N C E : R D S (o n )[m Ω]SOURCE −DRAIN VOLTAGE : −V SD [V ]Fig.7 Reverse Drain Current vs. Source-Drain Current R E V E R S E D R A I N C U R R E N T :−I S [A ]DRAIN −SOURCE VOLTAGE : −V DS [V ]Fig.8 Typical Capactitance vs.Drain −Source VoltageC A P A C I T A N C E : C [pF ]DRAIN CURRENT : −I D [A ]Fig.9 Switching CharacteristicsS W I T C H I N G T I M E : t [n s ]Transistor4/5Fig.10 Dynamic Input Characteristics4TOTAL GATE CHARGE : Qg [nC ]G A T E -S O U R C E V O L T A G E : -V G S [V ]1235z Notice1. SBD has a large reverse leak current compared to other type of diode. Therefore; it would raise a junction temperature, and increase a reverse power loss. Further rise of inside temperature would cause a thermal runaway .This built-in SBD has low V F characteristics and therefore, higher leak current. Please consider enough the surrounding temperature, generating heat of MOSFET and the reverse current.2. This product might cause chip aging and breakdown under the large electrified environment. Please consider to design ESD protection circuit.0.010.11101001000100001000000510152025REVERSE VOLTAGE : VR [V]R E V E R S E C U R R E N T : I R [u A ]Fig.11 Reverse Current vs. Reverse Voltage0.0010.010.11Fig.12Forward Current vs.Forward VoltageFORWARD VOLTAGE : V F (V)F O R W A R D C U R R E N T : I F (A )Transistor5/5z Measurement circuitsFig.13 Switching Time Measurement CircuitFig.14 Switching WaveformsFig.15 Gate Charge Measurement CircuitIFig.16 Gate Charge WaveformsV GSV GAppendix1-Rev2.0Thank you for your accessing to ROHM product informations.More detail product informations and catalogs are available, please contact your nearest sales office.ROHM Customer Support SystemTHE AMERICAS / EUROPE / ASIA / JAPANContact us : webmaster@rohm.co.jpAppendix分销商库存信息: ROHMUS5U38TR。

司司司技术资料一体化超声波位物位计2007.12.21US-500系列 US-501、US-502、US-503US-500系列一体化超声波物位计采用最佳声学匹配技术和声智能 回波软件处理技术,可用于对液体、浆料及颗粒物料的物位进行 非接触式连续测量.US-501US-502 US-503工作原理 产品特点●超声波物位计的工作是由换能器(探头)发出高 ● 微处理器程序控制，智能信号处理技术，可实现 频脉冲声波遇到被测物体(物料)表面反射折回, 多种工况软件处理模式，使超声波物位计能够适 部分反射回波被同一换能器接收,转换成电信 应固体、液体等多种工况。

号。

声波的传播时间与换能器到物体表面的距离成正比。

声波传输距离S 与声速C 和传输时 ● LCD/LED 大屏显示，配有高低位双继电器报警。

间T 之间的关系可用公式表示：S=CXT/2。

● 由于超声波脉冲发射过程中的机械惰性占用了 ● 一体化型设计美观大方，安装方便，品种齐全， 传输时间，导致靠近换能器的一小段区域内反 配有：二线制和四线制接线方法。

射波不能被接收。

这个区域称为盲区。

盲区的 大小与超声波物位计的型号有关。

北京瑞普三元仪表有限公司BEJING RIPENESS SANYUAN INSTRUMENTATION CO.,LTD产品型号●标准型:二线制US-501T、US-502T、US-503T四线制US-501U、US-502U、US-503U (四线制220V交流供电,可特殊定货)●防腐型:二线制US-501TF●本安型:二线制US-501TI、US-502TI、US-503TI二线制US-501TFI外形尺寸Array US-501T、US-501UUS-501TFUS-501TI、US-501TFI见图1US-502T、US-502UUS-502TI见图2US-503T、US-503UUS-503TI见图3 图1图2 图3技术参数量程 4m(液体)：US-501T/501U/501TF/501TI/501TFI8m(液体)：US-502T/502U/502TI20m(液体) 10m(固体)：US-503T/503U/503TI盲区： 0.2m ：US-501T/501U/501TF/501TI/501TFI0.3m ：US-502T/502U/502TI0.8m ：US-503T/503U/503TI精度：满量程的0.2%(空气中)显示分辨率： 1mm ：US-501T/501U/501TF/501TI/501TFIUS-502T/502U/502TI1cm ：US-503T/503U/503TI显示形式： 4位LCD液晶显示; US-501U/502U/503U为6位LED数码管显示输出信号： 4～20mA输出负载： 0～500Ω继电器输出：上限及下限控制(仅限四线制)继电器模式：常开(仅限四线制)继电器数量： 2个(仅限四线制)继电器规格： 5A 250VAC/30VDC(仅限四线制)参数设置： 3位有感按键温度范围: -40ºC～+80ºC温度补偿：全范围自动压力范围：±0.1MPa供电电源：二线制DC24V（±20%），30mA；四线制DC24V（±10%），0.1A；〔四线制AC220V（±10%），0.05A可选〕电缆直径: Φ6～Φ12mm单线线径：Φ0.5～Φ1.78mm电缆装置： M20×1.5密封套声波束角： 8º(3db) US-501T/501U/501TF/501TI/501TFIUS-502T/502U/502TI5º(3db)US-503T/503U/503TI检测周期： 1.5秒外壳材料：铝表面喷塑传感器材料： ABS/PVC 防腐型F46保护等级： IP66安装方式：螺纹、法兰或支架探头加长： 20cm或订货确定（寒冷地区安装选用）法兰标准（密闭容器）：GB9119.3-88U-S501T/501U/501TF/501TI/501TFI型：最小内径65mm（DN65）US-502T/502U/502TI型：最小内径65mm（DN65）US-503T/503U/503TI型：最小内径200mm（DN200），接管长度小于200mm外套管：当型物位计安装于容器开口处或安装于圆管内时，需要在探头上安装外套管，外套管有内螺纹，可直接安装在探头上.外套管尺寸图电气连接US-501T/502T/503T/501TF二线制接线端子图US-501U/502U/503U四线制DC24v供电接线端子图（其中：端子DC24v-与4-20mA-及接大地端已内部连通）US-501UA/502UA/503UA四线制AC220v供电接线端子图仪表工作状态及操作显示方式US-501T 、US-502T 、US-503T 和四线制220VAC 供电仪表为4位LCD 液晶显示.US-501U 、US-502U 、US-503U 为6位LED 数码管显示按键仪表上有4个按键，功能如下：SEL ：用于选择不同的显示内容或参数。

UNISONIC TECHNOLOGIES CO., LTDUS3651PreliminaryCMOS ICHIGH PRECISION CC/CVPRIMARY-SIDE PWM POWER SWITCH⏹DESCRIPTIONThe UTC US3651 is a primary control switch mode charger and adapter applications. The controlled variable is transferred by an auxiliary winding from the secondary to the primary side. The device integrates PWM controller to enhance the performance of discontinuous conduction mode (DCM) flyback converters.The UTC US3651 operates in primary-side sensing and regulation. Opto-coupler and TL431 could be eliminated. It also provides off-time modulation to linearly decrease PWM frequency under light-load conditions so that low standby power can be achieved.The UTC US3651 achieves high precision CV/CC regulation and high power efficiency. It offers comprehensive protection coverage with auto-recovery features including Cycle-by-cycle current limiting, V DD over voltage protection, V DD clamp, OTP, leading edge blanking, V DD under voltage lockout, etc.⏹FEATURES*Built-in 600V Power MOSFET*±5% constant voltage regulation at universal AC input*High precision constant current regulation at universal AC input *Primary side control without TL431 and opto-coupler *Programmable CV and CC regulation*Programmable cable compensation in CV mode *Flyback topology in DCM operation*Frequency hopping to reduce system EMI *Built-in leading edge blanking*Built-in primary winding inductance compensation*Power on soft start*Gate Output Maximum Voltage Clamped at 15V*Cycle-by-cycle current limiting *Over voltage protection *V DD under-voltage lockout⏹ORDERING INFORMATIONOrdering NumberLead Free Halogen Free Package PackingUS3651L-D08-TUS3651G-D08-TDIP-8Tube-US3651G-S08-RSOP-8Tape Reel⏹MARKING⏹PIN CONFIGURATIONV DD COMP INV CS GNDGNDDRAINDRAIN1238765⏹PIN DESCRIPTIONPIN NO.PIN NAME DESCRIPTION1V DD Power Supply 2COMP Loop Compensation 3 INV The voltage feedback from the auxiliary winding 4 CS Current sense input 5/6 DRAIN Power MOSFET Drain Pin 7/8GND GroundBLOCK DIAGRAMDRAIN INVCS⏹ABSOLUTE MAXIMUM RATINGPARAMETER SYMBOL RATINGS UNITDrain Voltage (Off State) B VDSS -0.3~Bvdss V V DD Zener Clamp Continuous Current I DD 10mA COMP Voltage V COMP -0.3~7V CS Input Voltage V CS -0.3~7V INV Input Voltage V INV -0.3~7V Operating Junction Temperature T J -20~150°C Storage Temperature T STG -55~150°CNotes: 1. Absolute maximum ratings are those values beyond which the device could be permanently damaged.Absolute maximum ratings are stress ratings only and functional device operation is not implied. 2.Drain Pin Connected 100mm 2 PCB copper clad.⏹THERMAL CHARACTERISTICSPARAMETERSYMBOLRATINGS UNITDIP-875 °C/W Junction to AmbientSOP-8θJA90°C/W⏹OUTPUT POWER TABLEPARAMETER RATINGS UNIT230VAC±15%6WAdapter (Note)85-264VAC 5WNote: Maximum practical continuous power in an Adapter design with sufficient drain pattern as a heat sink, at 50°Cambient.ELECTRICAL CHARACTERISTICS (T A=25°C, V DD=15V, unless otherwise specified)MAX UNITMINTYP PARAMETER SYMBOL TESTCONDITIONSSUPPLY SECTIONTurn-on Threshold Voltage V TH(ON)13.5 14.5 16VTurn-off Threshold Voltage V TH(OFF)8.2 9 10.5VV DD OVP Protection V DD_OVP28 VStartup Current I DD-ST 5 20μAOperating Current I DD-OP 1.6 2 mAGreen-Mode Operating Current I DD-GREEN 1.3 mAOSCILLATOR SECTIONMaximum Frequency f OSC55 65 75kHzMinimum Frequency at CCM f OSC-CM-MIN17kHzMinimum Frequency at No-load f OSC-N-MIN 370HzFrequency Hopping Range △f/freq±5.0 %Frequency Hopping Period t FHR 3msINV SECTION2.03VReference Voltage for EA V VR 1.972.00Reference Voltage for CCM V VR_CCM0.5 VMax. Cable Compensation Current I CABLE_MAX37uACURRENT SENSE SECTIONCurrent Sense Threshold Voltage V CS870 900 930mVOCP Propagation Delay t D_OC90 200nSLeading Edge Blank Time t LEB 900nSSoft Start Time t SS10 mSPOWER MOSFET SECTIONMOSFET DS Breakdown Voltage B VDSS600 V15ΩOn Resistance R DS(ON) 11 OTP SECTIONThreshold Temperature of OTP (Note) T OTP+140°CNote: When the over-temperature protection is activated, the power system enters auto restart mode and output is disabled.OPERATION DESCRIPTIONThe UTC US3651 is a primary control switch mode charger and adapter applications. It operates in primary-side sensing and regulation. Opto-coupler and TL431 could be eliminated. Proprietary built-in CV and CC control can achieve high precision CV/CC performance. The device integrates PWM controller to enhance the performance of discontinuous conduction mode (DCM) flyback converters.Startup controlThe V DD pin of UTC US3651 is connected to the line input through a resistor. A large value startup resistor can be used to minimize the power loss in application because the start current of UTC US3651 is very low. When the V DD voltage reaches V TH(ON), the internal startup circuit is disabled and the IC turns on.Operating CurrentThe Operating current of UTC US3651 is as low as 1.6mA. Good efficiency and very low standby power can be achieved.Constant Voltage OperationThe output voltage is defined by the transmission ratio between the secondary and auxiliary winding. The UTC US3651 captures the auxiliary winding feedback voltage at INV pin and operates in constant-voltage (CV) mode to regulate the output voltage. The auxiliary voltage reflects the output voltage is given by:）（V ∆+V ×N N =V O SAAUX (1)△Where V indicates the drop voltage of the output diode.Figure 2. Auxiliary voltage waveformVia a resistor divider connected between the auxiliary winding and INV, the V AUX is sampled at the Tsampling end and it is hold until the next sampling. The sampled voltage is compared with 2.0V reference voltage and the error is amplified. The error amplifier output reflects the load condition and controls the T OFF time and the Ipk to regulate the output voltage, thus constant output voltage can be achieved.Constant Current OperationWhen the sampled voltage is below 2.0V reference voltage and the error amplifier output reaches its maximum, thus UTC US3651 operates in constant-current (CC) mode. The CC point and maximum output power can be externally adjusted by external current sense resistor Rcs. The larger Rcs, the smaller CC point is, and the smaller output power becomes.OPERATION DESCRIPTION(Cont.)OUTV Figure 3. Adjustable output power by changing R CSFigure 4. Secondary current waveformIn CC operation, the CC loop control function of UTC US3651 will keep a fixed proportion between secondary inductance de-magnetization time (Tdemag) and switching cycle time (Tsw). The fixed proportion is21=Tsw Tdemag (2)Thus the output current is given by:PK PK OUT I S N PN 41Tsw Tdemag I S N P N 21I ⨯⨯=⨯⨯⨯=(3)Programmable Cable Drop CompensationUTC US3651 has a built-in cable voltage drop compensation to achieve good load regulation. An offset voltage is generated at INV pin by an internal current flowing into the resistor divider. The current is inversely proportional to the voltage of COMP pin. As a result, it is inversely proportional to the output load current. The voltage drop across the cable is compensated by this offset voltage at INV pin. It can also be programmed by adjusting the resistance of the divider to compensate the drop for various cable lines used.Current Sensing and Leading Edge BlankingCycle-by-cycle current limiting is offered in UTC US3651. The switch current is detected by a sense resistor into the CS pin. When the power switch is turned on, a turn-on spike will occur on this resistor. A 900ns leading-edge blanking is built in to avoid false-termination of the switching pulse so that the external RC filtering is no longer needed.⏹OPERATION DESCRIPTION(Cont.)Protection ControlGood power supply system reliability is achieved with its comprehensive protection features including V DD over-voltage protection, V DD Clamp, GATE Clamp, Power on soft start, Cycle-by-cycle current limiting, short circuit protection, leading edge blanking, OTP and UVLO, etc.V DD is supplied by transformer auxiliary winding output. The output of UTC US3651 is shutdown when V DD drops below V TH(OFF) and the power converter enters power on start-up sequence thereafter.⏹TYPICAL APPLICATION CIRCUITA。

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目 录项目 页12 2 6 6 7 9 9 10 11 13 15 17一、概述二、安全工作准则三、技术规格1.UT501绝缘电阻测试指标2.UT502绝缘电阻测试指标3.电压测试指标四、仪器正面视图五、按键及旋钮功能六、电压测量七、绝缘电阻测量八、更换电池九、保养与维护一、概述UT500系列是数字绝缘测试仪表，整机采用全新设计以及大规模集成电路和数字电路相组合，完成绝缘电阻、直流电压，交流电压等参数测量；功能更全，准确度更高，性能稳定，操作方便可靠。

适用于测量变压器、电机、电缆、开关、电器等各种电气设备及绝缘材料的绝缘电阻，对各种电气设备进行维修保养、试验及检定，UT501/UT502是您的理想的选择。

二、安全工作准则本仪器严格遵循电子测量仪器安全要求以及IEC61010-1安全标准进行设计生产。

SUUNTO VECTOR HR 矢量户外心率腕表目录第一章概述.......................................................................................................... (6)1.1 基本信息.......................................................................................................... . (6)1.2 主要功能（模式）...................................................................................................... ..61.2.1 背景灯特点 (6)1.2.2 防水.......................................................................................................... . (6)1.3 按钮功能.......................................................................................................... . (7)1.3.1 [Mode]按钮 (7)1.3.2 【＋】按钮 (7)1.3.3 【－】按钮 (7)1.3.4 [Select]按钮 (7)1.4 液晶屏显示.......................................................................................................... (8)1.5 度量和单位.......................................................................................................... (8)1.5.1 选择度量单位 (8)1.6 大气压传感校准(PRESSURE SENSOR CALIBRATION) (9)1.7 保养和维护.......................................................................................................... (9)1.7.1电池更换.......................................................................................................... ..10第二章时间(TIME)模式 (11)2.1 如何设置时间.......................................................................................................... . (11)2.2 闹钟(DAILY ALARM)子模式 (12)2.2.1 如何设置闹钟 (12)2.3 秒表(STOPWATCH)子模式 (12)2.3.1 如何使用秒表 (13)2.4 倒计时器(COUNTDOWN TIMER)子模式 (1)2.4.1 如何设置倒计时器 (14)2.4.2 如何启动倒计时器 (14)2.5 第二地时间(DUAL TIME)子模式（ALTIMAX 和S-LANDER） (14)2.5.1 设置第二地时间 (14)第三章高度计(ALTIMETER)模式 (16)3.1 设置高度计.......................................................................................................... . (16)3.2 高度差测量(ALTITUDE DIFFERENCE MEASUREMENT)子模式 (17)3.2.1 如何启动高度差测量 (17)3.3 24小时存储器(24-HOUR MEMORY)子模式 (18)3.4 日志(LOGBOOK)子模式 (18)3.4.1 如何启动和停止日志 (19)3.4.2 快速累计(Fast Cumulative)按钮 (19)3.5 日志历史(LOGBOOK HISTORY)子模式 (20)3.5.1 清除日志历史 (20)第四章气压计(BAROMETER)模式 (20)4.1 气压差测量(PRESSURE DIFFERENCE MEASUREMENT)子模式 (21)4.1.1 如何启动气压差测量 (21)4.2 4日存储器(4-DAY MEMORY)子模式 (22)4.3 海平面气压(SEA LEVEL PRESSURE)子模式 (22)4.3.1 设置海平面气压 (22)4.4 气压趋势指示(BAROMETRIC TREND INDICATOR) (22)第五章罗盘(COMPASS)模式(VECTOR 和X-LANDER) (23)5.1 方位跟踪(BEARING TRACKING)子模式 (24)5.2 磁偏角调节(DECLINATION ADJUSTMENT)子模式 (24)5.2.1 设置本地磁偏角 (24)5.3 校准罗盘.......................................................................................................... (24)第六章常见问题.......................................................................................................... ..256.1 总体问题.......................................................................................................... .. (25)6.1.1 腕上电脑是否防水？ (25)6.1.2 电池能用多长时间？ (25)6.1.3 外圈上的分段表示什么？ (25)6.1.4 为什么外圈的分段往左走（逆时针）？ (26)6.1.5 为什么模式指示条上方有两个符号，它们表示什么？ (26)6.2 时间.......................................................................................................... (26)6.2.1 为什么我在时间模式时外圈的节段会增加和减少？ (26)6.2.2 定时器最长能设多长时间？ (26)6.3 高度计.......................................................................................................... .. (26)6.3.1 如何清除日志？ (26)6.3.2 日志如何自动清除？ (26)6.3.3 您可以记录多少条日志？ (27)6.3.4 什么是时长数值？ (27)6.3.5 日志历史中的最大垂直上升或下降总量是多少英尺/米？ (27)6.3.6 如果从5000英尺的平面下降到3000英尺，然后又上升到8000尺，Vector将如何显示该数字或做出平均值？ (27)6.3.7 为什么虽然我在室内且呆在同一个房间里，垂直上升/下降测量却显示不同的数值？ (28)6.4 气压计.......................................................................................................... .. (28)6.4.1 屏幕左上方的小盒子是什么？ (28)6.4.2 腕上电脑是否显示天气的未来趋势？ (28)6.4.3 “绝对气压”和“相对气压”是什么意思？ (28)6.4.4 什么是温度补偿？ (28)6.5 罗盘.......................................................................................................... (29)6.5.1 旋转的外部底座的目的是什么？ (29)6.5.2 我从哪里可以找到所在区域的正确磁偏角，以便来设置我的腕上电脑？ (29)6.6 大气温度对高度测量的影响 (29)第七章备件清单.......................................................................................................... ..31第八章缩略语.......................................................................................................... (31)第九章版权和商标声明 (31)第十章CE遵约.......................................................................................................... .. (32)第十一章保修.......................................................................................................... (32)第十二章废旧设备处理 (32)第一章概述1.1 基本信息腕上电脑是一种高度可靠而精密的电子仪器，主要针对娱乐用途。

ContentsA. Your Meters FeatureB. SpecificationsC. Making MeasurementsD. MaintenanceE. AccessoriesF. Using HolsterG. Using StrapIntroductionUT56 is one type of UNI-T brand new UT50 series Multimeters with 4 1/2 digits, which has steady function and is a highly reliable hand-held measuring instrument. The Meter uses large scale of integrated circuit with double integrated A/D converter as its core and has full range overload protection. The Meter can measure DC current, AC current, DC Voltage, AC Voltage, Resistance, Capacitance, Diode, Transistor, Frequency and Continuity Beeper, which is an ideal measuring tool for users.Safety Rulesl Use the Meter only as specified in thismanual, otherwise the protection provided by the Meter may be impaired.l Do not operate the Meter before the cabinet has been closed and screwed safely asterminal can carry voltage.l Make sure before each measurement the Meter is set to the suitable range.l Before using the Meter, please inspectthe cabinet and test leads for damagedinsulation or exposed metal.l Connect the red and black test lead to the correct measuring input jack properly.l Do not input values over the maximum range of each measurement to avoid damages of the Meter.l Do not turn the rotary function switch during Voltage and Current measurement, otherwise the Meter could be destroyed .l Make sure to use new fuses with properrating in stead of bad fuses.l To avoid electric shock or damages, do not apply more than 1000V between the"COM" terminals and "" earth ground.l Use caution when working with Voltages above 60V (DC) or 30Vrms (AC). TheseVoltages pose shock hazard.Dangerous Voltagesl Replace the battery as soon as the battery indicator " "appears. With a low battery, the Meter might produce false readings that can lead to electric shock and personal injury.lTurn off the Meter once finished measuring. Fetch out the battery, when the meter will not be used for long period.lDo not operate the Meter under adverse environmental condition including high temperature and especially humid area as the Meter's function may be effected after moisturizing.lTo avoid damages and dangerous, do not change the circuit on your own.lPeriodically wipe the cabinet with a damp cloth and mid detergent. Do not use abrasives or solvents.lDispose the used battery proper.l International Electrical Symbols.A. Your Meters Feature“ ”“ ”B-3 Direct Current Current (DC Current)Overload protection: Below 200mA with 0.3 A/250V Fused. No fuse protection on 20A. Max current input: 20A (above 10A for 15 seconds maximum).Measuring voltage drop: Full ranges are 200mV. B-4 Alternate Current Current (AC Current)Overload protection: Below 200mA with0.3A/ 250V Fused. No fuse protection on 20A.Max current input:20A (above 10A for 15seconds maximum).Measuring voltage drop: Full ranges are 200mV Display: Average value(RMS of Sine Wave).B-5 ResistanceOverload protection: All ranges are 250VDC or AC RMS.Caution:1) At 200M Ω range, test lead is short circuit, the LCD display 1000 digits, deduct the 1000digits from the measured reading during measuring.2) At 200Ω range, short the test lead first to display the resistance value of the test leads. Deduct that resistance value from the measured reading to obtain the being measured object correct value .B-6 CapacitanceTesting Signals: About 400Hz, 40mVrms.2-7 FrequencyInput sensitivity: <200mVrms, Max. input scope 30Vrms. Overload protection: 250Vrms.2-8 Diode and Continuity BeeperOverload protection: 250V DC or AC RMS.B-9 Transistor hFE testRange Remark Measuring ConditionhFE Can Measure NPNand PNP typeTransistor, Displayranges: 0-1000 βBasic polarity current abt10µA,Vce abt 3.0VC. Making MeasurementsCaution:1 On/Off Switch 2 Capacitance jack 3 Liquid Crystal Display 4 Date Hold Switch 5 Rotary switch 6 Transistor jack 7 Input jack(1) If there is no display or is shown on the LCD when the Meter is switched on, replace the battery ASAP.(2) Never exceed the maximum input voltage or current limits shown besides the input jacks , otherwise the Meter will be damaged and this is dangerous to life.(3) Turn the rotary switch to proper range beforeoperating.“ ”“ ”C-1 Measuring DC Voltage1. Connect the black test lead to COM jack and red test lead to V jack.2. Set the rotary switch to V .3. Connect the test leads across with the object to be measured. LCD appears the measured value and also the polarity of the red test leads.“ ”“ ”Caution 1) If magnitude of the voltage is unknown, always start with the highest range and reduce until satisfactory reading is obtained.2) If 1 is shown on the LCD, which means the Meter is overloaded, then set the measuring range to higher.3) means never exceed the maximum input limit 1000V, otherwise internal circuit of the Meter will be damaged.4) Take extra care of voltage leakage when measuring high voltage.C-2 Measuring AC Voltage“ ”“ ”1. Connect the black test lead to COM jack and red test lead to V jack.2. Set the rotary switch to V~ .3. Connect the test leads across with the object to be measured.“ ”“ ”“ ”Caution1) Refer to DC Voltage Caution 1, 2, 4.2) means never exceed the maximum input limit 750V, otherwise internal circuit of the Meter will be damaged.“ ”“ ”“ ”C-3 Measuring DC Current1. Connect the black test lead to COM jack . When measuring below 200mA, connect the red test lead to mA jack. When measuring 20A or below, connect the red test lead to 20A jack.2. Set the rotary switch to A3. Connect the test leads in series with the object to be measured, the LCD display the measuring value and polarity of red test lead.“ ”“ ”“ ”“ ” .CautionC-4 Measuring AC Current1. Connect the black test lead to COM jack. When measuring below 200mA, connect the red test lead to “mA ” jack. When measuring 20A or below, connect the red test lead to 20A jack.2. Set the rotary switch to A~ .3. Connect the test leads in series with the object to be measured.“ ”“ ”“ ”1) Please refer to DC Current Caution 1, 2, 3.Caution1) If magnitude of the current is unknown, always start with the highest range and reduce until satisfactory reading is obtained.2) If 1 is shown on the LCD, which means the Meter is overloaded, then set the measuring range to higher.3) means the maximum input current is 200 mA, overload will cause the burn of fuse. 20A range does not have fuse protection“ ”“ ”“ ”C-5 Measuring ResistanceBefore measuring capacitance, remember it takes time for zeroing when changing ranges. Floating reading do not effect accuracy.Caution1) If 1 is shown on the LCD, which means the Meter is overloaded, then set a higher measuring range. If resistance is above 1M Ω, the reading will only be steady after few seconds which is normal for measuring high value of resistance.2) 1 is displayed when no input(e.g. open circuit).3) Make sure all objects, circuit and components to be measured are without voltage anddischarge all high-voltage capacitors.4) At 200M Ω range, test lead is short circuit, it has 1000 digits which need to be deducted from the reading when making measurement. For example, when measuring 100M Ω, it displays 110.00, 1000 digits need to be deducted (means 110.00-10.00=100.00M Ω).“ ”“ ”1. Connect the black test lead to COM jack and red test lead Ω jack.2. Set rotary switch to Ω .3. Connect the test leads across with the object to be measured.“ ”“ ”“ ”1) To avoid damage of the Meter or the equip- ment under testing, disconnect circuit powers and discharge capacitors before measuring capacitance.2) Connect capacitor to the capacitance jack.C-6 Measuring Capacitance Caution3) Stabilizing reading takes some time when measuring high capacitance.Unit : 1pF=10-6µF, 1nF = 10-3µFC-7 Measuring FrequencyWhen measuring above 30Vrms, accuracy could not be guaranteed and take extra care of safety as voltage brings dangerous electricity by that time.CautionC-8 Measuring Diode and Continuity beeper1. Set the black test lead to COM jack and red test lead to V Ω jack (Red test lead polarity is + ), Set the rotary switch to .2. Connect the test lead across with the object being measured.The reading is diode forward voltage drop nearest value.3. Connect the test lead to two ends of the object being measured, the beeper sounds if the resistant value between the two ends is below 50Ω .“ ”“ ”“ ”C-9 Measuring Transistor hFE1. Set rotary switch to hFE .2. Identify NPN or PNP type, connect objects to the correspondent transistor jack.3. LCD appears the hFE nearest value.4. Measuring condition: Ib 10µA, Vce 3.0V.1. Connect red test lead to Hz jack and black test lead to COM jack.2. Set the rotary switch to kHz .3. Connect the test leads across with the object being measured. LCD appears the frequency value.“ ”“ ”“ ”C-10 Auto-Power Off function1. Meter equips with auto-power off function.It will be in a sleep condition when it has worked for 30 minutes. Power will be automatically cut off.2. Press the on/off switch two times to power up again.D. MaintenanceThe Meter is a highly precise electrical testing instrument, do not attempt to change the circuit of your Meter on your own. Take a note of the following few points.1. Do not connect to DC Voltage above 1000V or AC RMS above 750V.2. Do not input voltage when the rotary switch“ ”“ ”“ ”is in Current Range Ω .or bottom cabinet is not securely screwed. 4. Disconnect the test leads and power off the Meter before replacing the Battery and Fuses.E. Accessories1. A book of users manual2. A pair of test lead3. A piece of holster (if selected)F. Using HolsterThree different ways to use holster:1. Set holster parallel on the table, do not open the tilt stand (see diagram 1)2. Set holster in a small angle on the table, tilt it up by the first part of tilt stand (see diagram 2)3. Set holster in a large angle on the table, tilt it up by all two parts of tilt stand (see diagram 3).figure1figure2figure3G. Using Strap1. Put the front end of the strap through the round metal of the Meter, see part 1 of the belowdiagram.2. Put the bottom end of the strap through the front part and tide it up, see part 2 of the below diagram.~ END ~* The manual is subject to changes without separate notice. *Manufacturer:Uni-Trend Technology (Dongguan) LimitedDong Fang Da DaoBei Shan Dong Fang Industrial Development District Hu Men Town, Dongguan CityGuang Dong ProvinceChinaPostal Code: 523 925Headquarters:Uni-Trend Group LimitedRm901, 9/F, Nanyang Plaza57 Hung To RoadKwun TongKowloon, Hong KongTel: (852) 2950 9168Fax: (852) 2950 9303Email:******************。

Dimensions: [mm]Scale - 1,5:1749118112474911811247491181124T e m p e r a t u r eT T T 7491181124Cautions and Warnings:The following conditions apply to all goods within the product series of WE-UNIT ofWürth Elektronik eiSos GmbH & Co. KG:General:•This electronic component is designed and manufactured for use in general electronic equipment.•Würth Elektronik must be asked for written approval (following the PPAP procedure) before incorporating the components into any equipment in fields such as military, aerospace, aviation, nuclear control, submarine, transportation (automotive control, train control, ship control), transportation signal, disaster prevention, medical, public information network, etc. where higher safety and reliability are especially required and/or if there is the possibility of direct damage or human injury.•Electronic components that will be used in safety-critical or high-reliability applications, should be pre-evaluated by the customer.•The component is designed and manufactured to be used within the datasheet specified values. If the usage and operation conditions specified in the datasheet are not met, the wire insulation may be damaged or dissolved.•Do not drop or impact the components, as the component may be damaged.•Würth Elektronik products are qualified according to international standards, which are listed in each product reliability report. Würth Elektronik does not warrant any customer qualified product characteristics beyond Würth Elektronik's specifications, for its validity and sustainability over time.•The responsibility for the applicability of the customer specific products and use in a particular customer design is always within the authority of the customer. All technical specifications for standard products also apply to customer specific products.Product specific:Soldering:•The solder profile must comply with the technical product specifications. All other profiles will void the warranty.•All other soldering methods are at the customers’ own risk.Cleaning and Washing:•Washing agents used during the production to clean the customer application might damage or change the characteristics of the wire insulation, marking or plating. Washing agents may have a negative effect on the long-term functionality of the product. Potting:•If the product is potted in the customer application, the potting material might shrink or expand during and after hardening. Shrinking could lead to an incomplete seal, allowing contaminants into the core. Expansion could damage the component. We recommend a manual inspection after potting to avoid these effects.Storage Conditions:• A storage of Würth Elektronik products for longer than 12 months is not recommended. Within other effects, the terminals may suffer degradation, resulting in bad solderability. Therefore, all products shall be used within the period of 12 months based on the day of shipment.•Do not expose the components to direct sunlight.•The storage conditions in the original packaging are defined according to DIN EN 61760-2.•The storage conditions stated in the original packaging apply to the storage time and not to the transportation time of the components. Handling:•Violation of the technical product specifications such as exceeding the nominal rated current will void the warranty.•Applying currents with audio-frequency signals may result in audible noise due to the magnetostrictive material properties.•Due to heavy weight of the components, strong forces and high accelerations may have the effect to damage the electrical connection or to harm the circuit board and will void the warranty.•The temperature rise of the component must be taken into consideration. The operating temperature is comprised of ambient temperature and temperature rise of the component.The operating temperature of the component shall not exceed the maximum temperature specified.These cautions and warnings comply with the state of the scientific and technical knowledge and are believed to be accurate and reliable.However, no responsibility is assumed for inaccuracies or incompleteness.Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODCHC004.0012021-01-20DIN ISO 2768-1mDESCRIPTIONWE-UNIT Off-Line TransformerORDER CODE7491181124SIZE/TYPE BUSINESS UNIT STATUS PAGEImportant NotesThe following conditions apply to all goods within the product range of Würth Elektronik eiSos GmbH & Co. KG:1. General Customer ResponsibilitySome goods within the product range of Würth Elektronik eiSos GmbH & Co. KG contain statements regarding general suitability for certain application areas. These statements about suitability are based on our knowledge and experience of typical requirements concerning the areas, serve as general guidance and cannot be estimated as binding statements about the suitability for a customer application. The responsibility for the applicability and use in a particular customer design is always solely within the authority of the customer. Due to this fact it is up to the customer to evaluate, where appropriate to investigate and decide whether the device with the specific product characteristics described in the product specification is valid and suitable for the respective customer application or not.2. Customer Responsibility related to Specific, in particular Safety-Relevant ApplicationsIt has to be clearly pointed out that the possibility of a malfunction of electronic components or failure before the end of the usual lifetime cannot be completely eliminated in the current state of the art, even if the products are operated within the range of the specifications.In certain customer applications requiring a very high level of safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health it must be ensured by most advanced technological aid of suitable design of the customer application that no injury or damage is caused to third parties in the event of malfunction or failure of an electronic component. Therefore, customer is cautioned to verify that data sheets are current before placing orders. The current data sheets can be downloaded at .3. Best Care and AttentionAny product-specific notes, cautions and warnings must be strictly observed. Any disregard will result in the loss of warranty.4. Customer Support for Product SpecificationsSome products within the product range may contain substances which are subject to restrictions in certain jurisdictions in order to serve specific technical requirements. Necessary information is available on request. In this case the field sales engineer or the internal sales person in charge should be contacted who will be happy to support in this matter.5. Product R&DDue to constant product improvement product specifications may change from time to time. As a standard reporting procedure of the Product Change Notification (PCN) according to the JEDEC-Standard inform about minor and major changes. In case of further queries regarding the PCN, the field sales engineer or the internal sales person in charge should be contacted. The basic responsibility of the customer as per Section 1 and 2 remains unaffected.6. Product Life CycleDue to technical progress and economical evaluation we also reserve the right to discontinue production and delivery of products. As a standard reporting procedure of the Product Termination Notification (PTN) according to the JEDEC-Standard we will inform at an early stage about inevitable product discontinuance. According to this we cannot guarantee that all products within our product range will always be available. Therefore it needs to be verified with the field sales engineer or the internal sales person in charge about the current product availability expectancy before or when the product for application design-in disposal is considered. The approach named above does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.7. Property RightsAll the rights for contractual products produced by Würth Elektronik eiSos GmbH & Co. KG on the basis of ideas, development contracts as well as models or templates that are subject to copyright, patent or commercial protection supplied to the customer will remain with Würth Elektronik eiSos GmbH & Co. KG. Würth Elektronik eiSos GmbH & Co. KG does not warrant or represent that any license, either expressed or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right relating to any combination, application, or process in which Würth Elektronik eiSos GmbH & Co. KG components or services are used.8. General Terms and ConditionsUnless otherwise agreed in individual contracts, all orders are subject to the current version of the “General Terms and Conditions of Würth Elektronik eiSos Group”, last version available at .Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODCHC004.0012021-01-20DIN ISO 2768-1mDESCRIPTIONWE-UNIT Off-Line TransformerORDER CODE7491181124SIZE/TYPE BUSINESS UNIT STATUS PAGE。

Package ContentsThe u500 package includes:●Power cable●Rack mounting bracket ears with screws ●Ethernet cable ●u500 applianceu500 rear and front panelsRear PanelFront PanelConsole Console port VGAVGA port USB USB ports ExternalInternet port InternalLAN portEth2 - 6LAN port (not configured) ResetReset switch Power indicatorSystem status indicator HDD indicatorLCD keypad arrowsInstallation●Prepare the appliance for rack installation by fastening the bracket ears to the sides of the chassis using the provided hardware. ●Mount the appliance to your rack enclosure using the provided hardware.●Connect the ethernet cable from your Internet modem or router to the Internet port (External) located on the rear panel. ●Connect the ethernet cable from your LAN switch to the LAN port (Internal) located on the rear panel. ●Plug in the power cable to a power source and connect it to the AC power input located on the rear panel. ●Review the power indicator on the front of the appliance. If the indicator is lit, the appliance is powered on. ●If the appliance is not powered on, toggle the power switch located on the rear panel.Connect to the applianceYou can connect to your appliance via the online C ommand Center portal at h ttps:///cmd . Alternatively, you can connect to your appliance from the local network, or directly using a monitor, keyboard, and mouse.Via Command CenterProvisioning a new u500 appliance via Command Center is a convenient way to deploy and configure NG Firewall. To set up and manage your new appliance from Command Center follow these steps:1.Navigate your web browser to h ttps:///cmd .2.Log in with your Untangle Command Center account, or click C reate Account to set up an account.3.In Command Center, click A dd in the Appliances screen.4.Enter the serial number located on the side panel of your appliance.5.Click A dd to confirm the new appliance.6.After the appliance successfully adds to your account, you can select it from the list of appliances.7.Click R emote Access to connect to the administration of your new appliance.8.Continue to the setup wizard.Via network connectionAlternatively, you can connect to your NG Firewall management interface from the local area network. This is useful for example if your NG Firewall appliance cannot reach the Internet and you require local administration to configure the TCP/IP settings. To access theadministration from a local network follow these steps:1.Connect your management system to the network attached to the LAN port (Internal) of the appliance.2.Check the network status of your management system and confirm that you receive an IPv4 address in the subnet of192.168.2.0/24 (e.g. 192.168.2.100).3.In a browser, navigate to 192.168.2.1.4.Accept the SSL certificate notice in your browser and continue to the setup wizard.Via direct connectionIf neither of the previous options is available, you can connect to your appliance directly by attaching a display to the VGA port and a keyboard and mouse to any of the USB ports. At the menu on the bottom of the screen, click L aunch Client to open the administration in a browser and continue to the setup wizard.Configure the setup wizardWhen you connect to the administration for the first time, the setup wizard prompts you to configure the essential parameters to get your appliance up and running.Get StartedNG Firewall packages its premium features as apps. During your first login NG Firewall prompts you to install the recommended apps. If you do not have a license, some of the recommended apps run as a 14 day trial. The trial converts to a subscription once you apply a valid license. You can learn more about NG Firewall apps at h ttps:///untangle-ng-firewall/applications/.WarrantyThis appliance is covered by a one, two or three year manufacturer warranty based on the option chosen at the time of purchase. For a description of the warranty policy visit h ttp:///refund-return-policy.Support & DocumentationFor technical support availability, contact information, and troubleshooting tips visit h ttp://. Help resources are available in the online help system at h ttp://.。

Contact us at: 972-556-0916ALL IN ONE Network Tech.Swift S5The Swift S5 all-in-one core alignment fusion splicer contains a built-in automatic thermal stripper, cleaner dispenser, one step precision cleaver and dual oven heater. The S5 comes with touch screen operation and over 300 splice cycles per battery charge. The S5 can splice any single fiber, single-mode or multi-mode, as well as any of our Swift Splice-On-Connectors.FeaturesIntegrated all-in-one design•Ruggedizing designed to protect against shock,•dust, rainLong battery life (320 cycles per charge)•Dual sleeve heater•Automatic thermal stripper•Navigational touch screen with 4.3 color monitor •Attached sleeve loader•Compatible for SOC connector•Swift S5Over 5kg/f Tensile Strength of Fiber After StrippingNo scratches on fiber with •heated fiber stripping CleaningOne-touch pump action style •Easy to refill•CleavingSingle-action cleaver•Attachable fiber chip collector• 4.3 Inch Color Monitor With Touch PanelMagnification : 300X, 170X •Built-in Dual Sleeve HeatersIncreases efficiency up to 20%•Cleaver with Fiber Chip CollectorStripper with MotorSleeve OvenHigh CapacityBatteryLCD MonitorCleaner 800-404-ATEC (2832)E s t a b l i s h eVisit Us Online: 4230 LBJ Freeway, Ste. 151 • Dallas, TX 75244 • 972-556-0916ALL IN ONE Network Tech.SC ConnectorLC ConnectorFC ConnectorST ConnectorSpecifications Subject DescriptionAlignmentIPAS Core to Core Alignment (Image Pattern Analysis Alignment System)Applicable FibersSMF(ITU-T G.652), MMF(ITU-T G.651), DSF(ITU-T G.653), NZDSF(ITU-T G.655), EDFA, EI980, Splicing available with different type fiber(SM/MM), ITU-T G.657Fiber Diametercladding : 80μm ~ 150μm , coating : 100μm ~ 1000μm (single)Fiber Cleave Length 250μm (Coat) : 8 ~ 16mm, 900μm : 16mmTypical Splice Loss SMF : 0.02dB, MMF : 0.01dB, DSF : 0.04dB, NZDSF : 0.04dB Return Loss Less then -60dBSPLICE Time SPLICE : Typical 9sec, Tube Heat : Typical 20 ~ 26sec with S-160(60mm) Tube ProgramSPLICE Mode : 100, Heat Mode : 50Storage Of Splice Result the last 2,000 results (Image 100 results)Operating Altitude 0 ~ 5000m above sea levelOperating Condition -10 ºC to 50 ºC, humidity : 95%, non-Condensing Storage Condition -40 ºC to 80 ºC, 0 to 95% RHProtection Wind 15 m /s , shock proof, water proof, dust proofSIZE, Weight 140W 225L 125H (include Monitor & Rubber), 2.95Kg (include Battery)Terminal USB, RCA, External PowerPowerDC 14.8V Battery (7700mAh), 100 ~ 240V AC Adapter Additional PowerDC 12V automobile ciger jack available No. of Splice/Heating with Battery 320 cycle, lithium polymer batteriesElectrodemore than 2,000 times splicing without exchange Mechanical Proof Test 2N / 4.4N (OPTION)DisplayTwo CMOS cameras and 4.3 color LCD monitor, with touch panel Fiber View and MagnificationX/Y 300X, 170XStandard Package Optional ItemsDescription Model # Qty Description Model #Fusion Splicer with Auto Stripper, S5 1 Set Spare Battery S513Cleaner Unit and Cleaver AC Adapter S311 1 Spare Cleaver CI-05Sleeve Loader S312 2 Cleaver Blade BI-05Spare Electrodes EI-21 1 ElectrodeEI-21Battery Pack S513 1 Protection Sleeves S-160(60mm), S-140(40mm)Carrying Case –1SOC Connector SC, LC, FC, ST, CH Refer to SOC catalogUser Manual –1Connector HolderHS - SC, LC, FC, ST。

us5变频器说明书
以下为US5变频器的简要说明：
概述：
US5变频器是一种高性能、高可靠性的变频调速产品。

它采用了最新的数字控制技术,具有广泛的电压和功率范围,并具有极强的抗干扰和运行稳定性。

主要特点：
1. 高性能的处理器和软件算法,确保了系统的高精度、高效率、高性能和高稳定性。

2. 易于操作的人机界面,采用画面式LCD显示器,显示系统参数和变频器运行状态。

3. 卓越的电力性能,全数字化的自适应矢量控制技术,能够对电机的电流和转矩进行准确的控制。

4. 稳定的低速性能,采用额外的磁通观测技术,确保在低速和负载变化条件下的可靠性和稳定性。

5. 多重保护功能,包括过电流、过电压、过流、过载、短路、过热等保护功能,提供了全方位的保护。

使用范围：
US5变频器广泛用于纺织、食品、机械、化工、水泵、风机、压缩机等领域,以实现电机的调速控制,节约能源,并提升系统的可靠性和生产效率。

注意事项：
1. 安装前请认真阅读说明书,并正确安装变频器和电机,并进行电气连接和接地。

2. 请勿拆卸变频器,以免损坏设备或者导致触电危险。

3. 使用过程中请勿超过变频器的额定功率,以免过载,影响变频器的寿命。

4. 在开机前,请保持环境清洁干燥,避免进入异物。

5. 维护保养时,请断电并等待一定的冷却时间,避免烫伤及电气危险。