DTD513ZMT2L;DTD513ZETL;中文规格书,Datasheet资料

KUTAI ELECTRONICS INDUSTRY CO., LTD.TCS4P125Automatic Transfer SwitchControl Unit for 3 Phase 4 Wire SystemOperation ManualThree Phase Four Wire 4P 125 Amp Rated Voltage 250 VacPatent Number : U.S. Pat. No. 7,557,683TABLE OF CONTENTSSection PageSECTION 1 : INTRODUCTION1.1 Safety Precautions (3)1.2 Products Overview (3)SECTION 2 : HARDWARE DESCRIPTION2.1 Front Panel (4)2.2 TCS4P125 Dimensions (5)2.3 Panel Cut-Out For The TC-V2 (5)SECTION 3 : FUNCTION DESCRIPTION3.1 General (6)3.2 TDNE Setting (6)3.3 TDEN Setting (6)3.4 TDEC Setting (6)3.5 TDES Setting (6)3.6 TD-OFF Setting (6)3.7 Plant Exerciser (6)3.8 Over / Under Voltage Sensing (6)3.9 Transfer Failure (6)SECTION 4 : OPERATION4.1 General (7)4.2 AUTO Mode (7)4.3 TEST Mode (7)4.4 Programming Mode (7)4.5 AC Voltage Display Adjustment (7)4.6 Specification Summary (7)4.7 System Setting Reference Table (8)SECTION 5 : INSTALLATION INSTRUCTIONS5.1 General (9)5.2 Installation On The Plate (9)5.3 TC-V2 Installation On The Door Panel (10)SECTION 6 : TYPICAL WIRING6.1 TCS4P125 Standard Wiring Diagram (11)SECTION 1 : INTRODUCTION1.1 Safety Precautions (WARNINGS)This manual covers the installation, operation and maintenance of the TCS4P125 Automatic Transfer Switch. It is intended for qualified personal only.1.2 Products OverviewThe TCS4P125 automatic transfer switch consist of two parts the TS4P125 switch and the TC-V2 electronic control unit :1.2.1 TS125 FeaturesThe contacts on the Kutai TS4P125 transfer switch are class PC, this means that it is capable of making and withstanding short circuits but is not intended for breaking short circuit current.●Rated operating Voltage：250 Vac●Rated operating Current：125 Amps●Number of poles：4P●Coil operating voltage：110 / 220 Vac +/- 20%●Compact size, light weight and low powerconsumption.●Electrically operated and mechanically held.●Manufactured using UL 94V-0 plastics.●Adjustable time delay in OFF position whentransferring.●Designed for cell-phone repeaters, and manyindustrial and home ATS applications.1.2.2 TC-V2 Digital ControllerThe TC-V2 digital control unit offers programming flexibility to customize the ATS to different customer requirements.The Controller:●Monitor normal source for full phase over and undervoltages.●Monitor emergency source for single phase overand under voltages.●Normal & emergency source voltage and frequencyparameter display.●TDEN, TDNE, TDEC and TD-OFF real timecountdown display.●Permit testing the transfer switch from the controlpanel.●Permit system testing the transfer switch with orwithout load from the front panel.●Built-in 1 to 4 weeks exerciser timer.●Permit customer plant exerciser test with / withoutload on a preset period.●Safely store customer / factory settings inpermanent memory.●Shows status and failure alarm LED’s on the frontpanel.●No need for PC connection and programmingsoftware. All settings can be made on site.●Controller can be installed next to switch orseparately on an enclosure panel.SECTION 2 : HARDWARE DESCRIPTION 2.1 Front Panel2.2 TCS4P125 Dimensions (Unit : mm)2.3 Panel Cut-Out for the TC-V2 (Unit : mm)SECTION 3 : FUNCTION DESCRIPTION3.1 GeneralOperation of the TCS4P125 electronic control.3.2 TDNE SettingsTDNE provides a time delay when transferring from N ormal to E mergency. Timing begins when the Emergency Source (generator) becomes available. TDNE：Adjustable from 0 to 99 seconds.3.3 TDEN SettingsTDEN provides a time delay when transferring from Emergency to Normal. This permits stabilization of the Normal Power before transferring back to normal. Timing begins when the Normal Power returns and becomes available and steady.TDEN：Adjustable from 0 to 99 seconds.3.4 TDEC SettingsTDEC timer keeps the generator running without load (E ngine C ool-down) after the ATS transfer back to Normal Power. Timing begins when the transfer back to normal is completed.TDEC：Engine Cool-down - from 0 to 99 sec.3.5 TDES SettingTDES is the time delay for Engine Start when the Normal Source voltage is in over or under-voltage (OV or UV). If power return to normal while timing, the TDES timer resets and starts again.TDES：Adjustable from 0 to 30 seconds.3.6 TD-OFF SettingTime Delay on OFF this timer keeps the switch in the center neutral OFF position (completely disengaged) before transferring to the other side. You can preset the switch in Neutral or OFF from 0 to 18 seconds (Normally 2 to 3 sec).TD-OFF：Adjustable from 1 to 20 seconds.3.7 Plant ExerciserThis feature provides for automatic test operation of the generator. The interval is fixed at once per 1 to 4 weeks with a specific test day and time. The exerciser can be set for either testing with load or without load. When the exerciser is activated the exerciser LED (EX) on the right side of display flashes and turns on during the exercise period.3.8 Over / Under Voltage SensingThe TC-V2 constantly monitors normal & emergency power. When power falls outside the programmed voltages this LED turns RED from GREEN and flashing to show OV / UV problems.Adjustable over voltage range：110 - 280 VacOver voltage reset：When voltage falls below 10 Vac of the OV setting.Adjustable under voltage range：80 - 230 VacUnder voltage reset：When voltage exceeds 10 Vac of the UV setting.3.9 Transfer FailureWhen a transfer is made the TS125 communicates it’s position to the TC-V2 controller by using two small internal micro-switches, if this signal is not received, it will try switching 3 more times every 2 seconds or until the connection is made. A flashing light indicator and a “FAIL” signa l displayed an incomplete transfer and that the ATS mechanism or wiring is defective.If the ATS fails, the TC-V2 controller stops all ATS functions and starts’ flashing until the failure is corrected and the control is reset.To reset the transfer fail alarm：1. Manually move the ATS to the correct position.2. Press any button (Auto, Program or Test) on thefront panel to reset the alarm.SECTION 4 : OPERATION4.1 GeneralThis section specifically describes the operation and functional use of the TC-V2 controller.4.2 AUTO ModeIn AUTO the TC-V2 controller automatically transfer and retransfers from source to source as directed by the pre-programmed instructions.In AUTO the controller monitors the condition of both normal and standby power sources providing the logic for the transfer operation.4.3 TEST ModeThe TC-V2 is equipped with a test pushbutton that simulates the loss of normal source. Pushing the Test key the TC-V2 will execute a test on the ATS. The TDES and TDNE programmed time delays will be performed as part of the test. There are two test modes：●Testing with load .●Testing without load4.4 Programming ModeThe TC-V2 controller is fully programmable from the front panel when in the Program Mode. The build-in program buttons have multiple functions：●Real time clock displaying●Programming mode operatingTo enter programming mode, push and hold Program button for 10 seconds. In the first 10 seconds the screen showing internal real time clock and then the word “ Vr 1.0” will appears on the front display window for 2 seconds indicating the version of the software.At this time start a line by line programming sequence. To advance to the next line, push the Program button on the front panel. To change each line’s programming parameters, press the increase (∧) and decrease (∨) buttons. When pressing and releasing the (∧) or (∨) key the displayed parameter can be increased or decreased by one. The parameter will continue to scroll if the (∧) or (∨) button is pressed and not released. Always push the “ Program” button to advance to the next line or until the word “ End” appears on the screen. To immediately end the programming mode, you simply push the “ Program” button for 4 seconds. Then the word “ End” shows on the screen indicating the end of the programming mode.If you like to return to factory settings, stay in programming mode and simultaneously press all 3 buttons (∧), (∨) and Program buttons for 4 seconds. The TC-V2 will now automatically program itself to factory settings and the word “ Au.Po” will appear on the display window.4.5 AC Voltage Display AdjustmentThe TC-V2 controller continually monitors normal & emergency power displaying volts and frequency on the front panel. (The voltage value is calibrated and adjusted at the factory). But when the ATS works on high capacitive or inductive loads the waveform distortion may cause the displayed to have slight differences from the users measuring instrument.You can adjust the display value to equal to the users own instruments, by entering the setting mode to perform adjustment the parameter. Once the adjustment is completed, the voltage sensing value will increase or decrease according to the adjusted value and display it on the screen. The TC-V2 over and under voltage protection follow the adjusted value as the actual system voltage and perform the monitoring according to the new parameter.See Table lines 2, 3, 4, 5 for voltage display setting. 4.6 Specification Summary4.7 System Setting Reference TableSECTION 5 : INSTALLATION INSTRUCTIONS5.1 GeneralThe TC-V2 controller is modular and is designed for installation next to switch or on the front door panel. A longer harness is required for door installation.5.2 Installation On The Plate5.3 Installation On The Door PanelSECTION 6 : TYPICAL WIRING6.1 TCS4P125 Standard Wiring Diagram (110 or 220V)___________________________________________________________________________________________ TCS4P125(TC-V2)11。

BZT52-B seriesSingle Zener diodes in a SOD123 packageRev. 1 — 20 December 2017Product data sheet1 1 Product profile1.1General descriptionGeneral-purpose Zener diodes in a SOD123 small Surface-Mounted Device (SMD)plastic package.1.2Features and benefits•Total power dissipation: ≤ 590 mW•Wide working voltage range: nominal 2.4 V to 75 V (E24 range)•Small plastic package suitable for surface-mounted design •Low differential resistance •B selection•AEC-Q101 qualified1.3Applications•General regulation functions1.4Quick reference data[1]Pulse test: t p ≤ 300 μs; δ ≤ 0.02.[2]Device mounted on an FR4 Printed-Circuit Board (PCB), single-sided copper, tin-plated and standard footprint.[3]Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm 2.Single Zener diodes in a SOD123 package 2Pinning information[1]The marking bar indicates the cathode.3Ordering information[1]The series consists of 37 types with nominal working voltages from 2.4 V to 75 V.4MarkingSingle Zener diodes in a SOD123 package 5Limiting valuesTable 5. Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).[1]t p = 100 μs; square wave; T j = 25 °C prior to surge.[2]Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.[3]Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm2.6Thermal characteristics[1]Device mounted on an FR4 Printed-Circuit Board (PCB),single-sided copper, tin-plated and standard footprint.[2]Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm2.[3]Soldering point of cathode tab.7CharacteristicsTable 7. CharacteristicsT = 25 °C unless otherwise specified.[1]Pulse test: t p ≤ 300 μs; δ ≤ 0.02.Single Zener diodes in a SOD123 package Table 8. Characteristics per type; BZT52-B2V4 to BZT52-B24= 25 °C unless otherwise specified.T[1] f = 1 MHz; V R = 0 V[2]t p = 100 μs; T amb = 25 °CSingle Zener diodes in a SOD123 packageTable 9. Characteristics per type; BZT52-B27 to BZT52-B51T= 25 °C unless otherwise specified.[1] f = 1 MHz; V R = 0 V[2]t p = 100 μs; T amb = 25 °CTable 10. Characteristics per type; BZT52-B56 to BZT52-B75T = 25 °C unless otherwise specified.[1] f = 1 MHz; V R = 0 V[2]t p = 100 μs; T amb = 25 °CSingle Zener diodes in a SOD123 package8Test information8.1Quality informationThis product has been qualified in accordance with the Automotive Electronics Council(AEC) standard Q101 - Stress test qualification for discrete semiconductors, and issuitable for use in automotive applications.Single Zener diodes in a SOD123 package 9Package outline10SolderingSingle Zener diodes in a SOD123 package 11Revision historySingle Zener diodes in a SOD123 package 12Legal information12.1 Data sheet status[1]Please consult the most recently issued document before initiating or completing a design.[2]The term 'short data sheet' is explained in section "Definitions".[3]The product status of device(s) described in this document may have changed since this document was published and may differ in case of multipledevices. The latest product status information is available on the Internet at URL .12.2 DefinitionsDraft — The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. Nexperia does not give any representations or warranties as to the accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information.Short data sheet — A short data sheet is an extract from a full data sheet with the same product type number(s) and title. A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local Nexperia sales office. In case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail.Product specification — The information and data provided in a Product data sheet shall define the specification of the product as agreed between Nexperia and its customer, unless Nexperia and customer have explicitly agreed otherwise in writing. In no event however, shall an agreement be valid in which the Nexperia product is deemed to offer functions and qualities beyond those described in the Product data sheet.12.3 DisclaimersLimited warranty and liability — Information in this document is believed to be accurate and reliable. However, Nexperia does not give any representations or warranties, expressed or implied, as to the accuracyor completeness of such information and shall have no liability for the consequences of use of such information. Nexperia takes no responsibility for the content in this document if provided by an information source outside of Nexperia. In no event shall Nexperia be liable for any indirect, incidental, punitive, special or consequential damages (including - without limitation -lost profits, lost savings, business interruption, costs related to the removal or replacement of any products or rework charges) whether or not such damages are based on tort (including negligence), warranty, breach of contract or any other legal theory. Notwithstanding any damages that customer might incur for any reason whatsoever, Nexperia's aggregate and cumulative liability towards customer for the products described herein shall be limited in accordance with the Terms and conditions of commercial sale of Nexperia.Right to make changes — Nexperia reserves the right to make changesto information published in this document, including without limitation specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof.Applications — Applications that are described herein for any of these products are for illustrative purposes only. Nexperia makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification. Customers are responsible for the design and operation of their applications and products using Nexperia products, and Nexperia accepts no liability for any assistance with applications or customer product design. It is customer’s sole responsibility to determine whether the Nexperia product is suitable and fit for the customer’s applications and products planned, as well as for the planned application and use of customer’s third party customer(s). Customers should provide appropriate design and operating safeguards to minimize the risks associated with their applications and products. Nexperia does not accept any liability related to any default, damage, costs or problem which is based on any weakness or default in the customer’s applications or products, or the application or use by customer’s third party customer(s). Customer is responsible for doing all necessary testing for the customer’s applications and products using Nexperia products in order to avoid a default of the applications and the products or of the application or use by customer’s third party customer(s). Nexperia does not accept any liability in this respect.Limiting values — Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC 60134) will cause permanent damage to the device. Limiting values are stress ratings only and (proper) operation of the device at these or any other conditions above thosegiven in the Recommended operating conditions section (if present) or the Characteristics sections of this document is not warranted. Constant or repeated exposure to limiting values will permanently and irreversibly affect the quality and reliability of the device.Terms and conditions of commercial sale — Nexperia products aresold subject to the general terms and conditions of commercial sale, as published at /profile/terms, unless otherwise agreed in a valid written individual agreement. In case an individual agreement is concluded only the terms and conditions of the respective agreement shall apply. Nexperia hereby expressly objects to applying the customer’s general terms and conditions with regard to the purchase of Nexperia products by customer.No offer to sell or license — Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance orthe grant, conveyance or implication of any license under any copyrights, patents or other industrial or intellectual property rights.Suitability for use in automotive applications — This Nexperia product has been qualified for use in automotive applications. Unless otherwise agreed in writing, the product is not designed, authorized or warranted tobe suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of an Nexperia product can reasonably be expected to result in personal injury, death or severe property or environmental damage. Nexperia and its suppliers accept no liability for inclusion and/or use of Nexperia products in such equipment or applications and therefore such inclusion and/or use is at the customer's own risk.Single Zener diodes in a SOD123 packageQuick reference data — The Quick reference data is an extract of the product data given in the Limiting values and Characteristics sections of this document, and as such is not complete, exhaustive or legally binding.Export control — This document as well as the item(s) described herein may be subject to export control regulations. Export might require a prior authorization from competent authorities.Translations — A non-English (translated) version of a document is for reference only. The English version shall prevail in case of any discrepancy between the translated and English versions.12.4 TrademarksNotice: All referenced brands, product names, service names and trademarks are the property of their respective owners.Nexperia BZT52-B series Single Zener diodes in a SOD123 packagePlease be aware that important notices concerning this document and the product(s)described herein, have been included in section 'Legal information'.© Nexperia B.V. 2017.All rights reserved.For more information, please visit: Forsalesofficeaddresses,pleasesendanemailto:***************************Date of release: 20 December 2017Document identifier: BZT52-B_SERContents1 1 Product profile .................................................11.1General description ............................................11.2Features and benefits ........................................11.3Applications ........................................................11.4Quick reference data .........................................12Pinning information ............................................23Ordering information ..........................................24Marking .................................................................25Limiting values ....................................................36Thermal characteristics ......................................37Characteristics ....................................................38Test information ..................................................68.1Quality information .............................................69Package outline ...................................................710Soldering ..............................................................711Revision history ..................................................812Legal information (9)Mouser ElectronicsAuthorized DistributorClick to View Pricing, Inventory, Delivery & Lifecycle Information:N experia:BZT52-B11J BZT52-B39X BZT52-B4V7X BZT52-B75J BZT52-B75X BZT52-B7V5X BZT52-B68X BZT52-B6V2X BZT52-B8V2J BZT52-B13J BZT52-B27J BZT52-B3V6J BZT52-B4V3X BZT52-B5V6J BZT52-B9V1J BZT52-B16X BZT52-B18X BZT52-B36X BZT52-B3V3J BZT52-B5V1J BZT52-B7V5J BZT52-B12J BZT52-B2V4J BZT52-B33X BZT52-B47X BZT52-B6V8X BZT52-B10J BZT52-B20X BZT52-B24X BZT52-B3V0X BZT52-B51J BZT52-B56J BZT52-B43J BZT52-B43X BZT52-B68J BZT52-B11X BZT52-B3V3X BZT52-B8V2X BZT52-B6V8J BZT52-B9V1X BZT52-B13X BZT52-B15X BZT52-B2V7J BZT52-B3V9J BZT52-B12X BZT52-B18J BZT52-B27X BZT52-B3V6X BZT52-B4V7J BZT52-B6V2J BZT52-B5V1X BZT52-B2V7X BZT52-B30X BZT52-B3V9X BZT52-B47J BZT52-B62J BZT52-B20J BZT52-B2V4X BZT52-B33J BZT52-B36J BZT52-B4V3J BZT52-B56X BZT52-B22J BZT52-B22X BZT52-B24J BZT52-B39J BZT52-B3V0J BZT52-B51X BZT52-B15J BZT52-B16J BZT52-B30J BZT52-B5V6X BZT52-B62X BZT52-B10X。

PSM Step-up DC/DC ConverterFeatures1~4 Cell Alkaline Battery Operating Range Output Voltage Range: 2.5V~5.0V in 0.1V In-crementsMinimum External Component (L, D, C)100KHz Max. Oscillation Frequency75% Duty RatioUp to 80% Efficiency±2% High Output Voltage Accuracy< 100ppm/°C Temperature CoefficientSOT-89 and SOT-23-5 Small Packages ApplicationsPower Source for Portable EquipmentsHandheld Computers, PalmtopsDigital Still Cameras, CamcordersCellular Phones, PagersPortable Multimedia Players General DescriptionThe G5130/G5131 boost converter is designed for use of main power source on portable equipments.It consist of an oscillator, PSM control logic circuit, an embedded power MOS (LX switch), accurate voltage reference, error amplifier, feedback resistors, and LX protection circuit.Only 3 external components (includes 1 inductor, 1 diode and 1 capacitor) are needed to construct the power application.For larger output power application, G5131 can be used to drive an external NPN device for more input current.Pin Configuration Typical Application Circuit2.5V~5.0V2.5V~5.0VStep 0.1VStep 0.1VOrdering InformationORDER NUMBER ORDER NUMBER(Pb free)MARKINGOUTPUTVOLTAGE (V)TEMP.RANGEPACKAGEG5130-30T11U G5130-30T11Uf EA30x 3.0 -40°C ~ +85°C SOT-23-5G5130-33T11U G5130-33T11Uf EA33x 3.3 -40°C ~ +85°C SOT-23-5G5130-42T11U G5130-42T11Uf EA42x 4.2 -40°C ~ +85°C SOT-23-5G5130-50T11U G5130-50T11Uf EA50x 5.0 -40°C ~ +85°C SOT-23-5G5130-30T21U G5130-30T21Uf 5130Fx 3.0 -40°C ~ +85°C SOT-89G5130-33T21U G5130-33T21Uf 5130Ix 3.3 -40°C ~ +85°C SOT-89G5130-42T21U G5130-42T21Uf 5130Rx 4.2 -40°C ~ +85°C SOT-89G5130-50T21U G5130-50T21Uf 5130Zx 5.0 -40°C ~ +85°C SOT-89G5131-30T11U G5131-30T11Uf EB30x 3.0 -40°C ~ +85°C SOT-23-5G5131-33T11U G5131-33T11Uf EB33x 3.3 -40°C ~ +85°C SOT-23-5G5131-42T11U G5131-42T11Uf EB42x 4.2 -40°C ~ +85°C SOT-23-5G5131-50T11U G5131-50T11Uf EB50x 5.0 -40°C ~ +85°C SOT-23-5G5131-30T21U G5131-30T21Uf 5131Fx 3.0 -40°C ~ +85°C SOT-89G5131-33T21U G5131-33T21Uf 5131Ix 3.3 -40°C ~ +85°C SOT-89G5131-42T21U G5131-42T21Uf 5131Rx 4.2 -40°C ~ +85°C SOT-89G5131-50T21U G5131-50T21Uf 5131Zx 5.0 -40°C ~ +85°C SOT-89For other output voltage, please contact us at sales@Order Number IdentificationGXXXX XX XXTypePin OptionTypeVoltage OptionPart NumberG5130: Internal MOS (LX)G5131: External MOS (EXT)PACKAGE TYPE PIN OPTION PACKINGT1 : SOT-23-5 SOT89 SOT23-5U & D: Tape & Reel Direction T2 : SOT-89 1 2 3 1 2 3 4 5G5130 1:GND VOUT LX 1:CE VOUT NC GND LXG5131 1:GND VOUT EXT 1:CE VOUT NC GND EXTORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5130-25T11U G5130-25T11Uf 2.5 EA25x G5130-26T11U G5130-26T11Uf 2.6 EA26x G5130-27T11U G5130-27T11Uf 2.7 EA27x G5130-28T11U G5130-28T11Uf 2.8 EA28x G5130-29T11U G5130-29T11Uf 2.9 EA29x G5130-30T11U G5130-30T11Uf 3.0 EA30x G5130-31T11U G5130-31T11Uf 3.1 EA31x G5130-32T11U G5130-32T11Uf 3.2 EA32x G5130-33T11U G5130-33T11Uf 3.3 EA33x G5130-34T11U G5130-34T11Uf 3.4 EA34x G5130-35T11U G5130-35T11Uf 3.5 EA35x G5130-36T11U G5130-36T11Uf 3.6 EA36x G5130-37T11U G5130-37T11Uf 3.7 EA37x G5130-38T11U G5130-38T11Uf 3.8 EA38x G5130-39T11U G5130-39T11Uf 3.9 EA39x G5130-40T11U G5130-40T11Uf 4.0 EA40x G5130-41T11U G5130-41T11Uf 4.1 EA41x G5130-42T11U G5130-42T11Uf 4.2 EA42x G5130-43T11U G5130-43T11Uf 4.3 EA43x G5130-44T11U G5130-44T11Uf 4.4 EA44x G5130-45T11U G5130-45T11Uf 4.5 EA45x G5130-46T11U G5130-46T11Uf 4.6 EA46x G5130-47T11U G5130-47T11Uf 4.7 EA47x G5130-48T11U G5130-48T11Uf 4.8 EA48x G5130-49T11U G5130-49T11Uf 4.9 EA49x G5130-50T11U G5130-50T11Uf 5.0 EA50x Note: T1: SOT-23-5Selector GuideORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5130-25T21U G5130-25T21Uf 2.5 5130Ax G5130-26T21U G5130-26T21Uf 2.6 5130Bx G5130-27T21U G5130-27T21Uf 2.7 5130Cx G5130-28T21U G5130-28T21Uf 2.8 5130Dx G5130-29T21U G5130-29T21Uf 2.9 5130Ex G5130-30T21U G5130-30T21Uf 3.0 5130Fx G5130-31T21U G5130-31T21Uf 3.1 5130Gx G5130-32T21U G5130-32T21Uf 3.2 5130Hx G5130-33T21U G5130-33T21Uf 3.3 5130Ix G5130-34T21U G5130-34T21Uf 3.4 5130Jx G5130-35T21U G5130-35T21Uf 3.5 5130Kx G5130-36T21U G5130-36T21Uf 3.6 5130Lx G5130-37T21U G5130-37T21Uf 3.7 5130Mx G5130-38T21U G5130-38T21Uf 3.8 5130Nx G5130-39T21U G5130-39T21Uf 3.9 5130Ox G5130-40T21U G5130-40T21Uf 4.0 5130Px G5130-41T21U G5130-41T21Uf 4.1 5130Qx G5130-42T21U G5130-42T21Uf 4.2 5130Rx G5130-43T21U G5130-43T21Uf 4.3 5130Sx G5130-44T21U G5130-44T21Uf 4.4 5130Tx G5130-45T21U G5130-45T21Uf 4.5 5130Ux G5130-46T21U G5130-46T21Uf 4.6 5130Vx G5130-47T21U G5130-47T21Uf 4.7 5130Wx G5130-48T21U G5130-48T21Uf 4.8 5130Xx G5130-49T21U G5130-49T21Uf 4.9 5130Yx G5130-50T21U G5130-50T21Uf 5.0 5130Zx Note: T2: SOT-89ORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5131-25T11U G5131-25T11Uf 2.5 EB25x G5131-26T11U G5131-26T11Uf 2.6 EB26x G5131-27T11U G5131-27T11Uf 2.7 EB27x G5131-28T11U G5131-28T11Uf 2.8 EB28x G5131-29T11U G5131-29T11Uf 2.9 EB29x G5131-30T11U G5131-30T11Uf 3.0 EB30x G5131-31T11U G5131-31T11Uf 3.1 EB31x G5131-32T11U G5131-32T11Uf 3.2 EB32x G5131-33T11U G5131-33T11Uf 3.3 EB33x G5131-34T11U G5131-34T11Uf 3.4 EB34x G5131-35T11U G5131-35T11Uf 3.5 EB35x G5131-36T11U G5131-36T11Uf 3.6 EB36x G5131-37T11U G5131-37T11Uf 3.7 EB37x G5131-38T11U G5131-38T11Uf 3.8 EB38x G5131-39T11U G5131-39T11Uf 3.9 EB39x G5131-40T11U G5131-40T11Uf 4.0 EB40x G5131-41T11U G5131-41T11Uf 4.1 EB41x G5131-42T11U G5131-42T11Uf 4.2 EB42x G5131-43T11U G5131-43T11Uf 4.3 EB43x G5131-44T11U G5131-44T11Uf 4.4 EB44x G5131-45T11U G5131-45T11Uf 4.5 EB45x G5131-46T11U G5131-46T11Uf 4.6 EB46x G5131-47T11U G5131-47T11Uf 4.7 EB47x G5131-48T11U G5131-48T11Uf 4.8 EB48x G5131-49T11U G5131-49T11Uf 4.9 EB49x G5131-50T11U G5131-50T11Uf 5.0 EB50x Note: T1: SOT-23-5Selector GuideORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5131-25T21U G5131-25T21Uf 2.5 5131Ax G5131-26T21U G5131-26T21Uf 2.6 5131Bx G5131-27T21U G5131-27T21Uf 2.7 5131Cx G5131-28T21U G5131-28T21Uf 2.8 5131Dx G5131-29T21U G5131-29T21Uf 2.9 5131Ex G5131-30T21U G5131-30T21Uf 3.0 5131Fx G5131-31T21U G5131-31T21Uf 3.1 5131Gx G5131-32T21U G5131-32T21Uf 3.2 5131Hx G5131-33T21U G5131-33T21Uf 3.3 5131Ix G5131-34T21U G5131-34T21Uf 3.4 5131Jx G5131-35T21U G5131-35T21Uf 3.5 5131Kx G5131-36T21U G5131-36T21Uf 3.6 5131Lx G5131-37T21U G5131-37T21Uf 3.7 5131Mx G5131-38T21U G5131-38T21Uf 3.8 5131Nx G5131-39T21U G5131-39T21Uf 3.9 5131Ox G5131-40T21U G5131-40T21Uf 4.0 5131Px G5131-41T21U G5131-41T21Uf 4.1 5131Qx G5131-42T21U G5131-42T21Uf 4.2 5131Rx G5131-43T21U G5131-43T21Uf 4.3 5131Sx G5131-44T21U G5131-44T21Uf 4.4 5131Tx G5131-45T21U G5131-45T21Uf 4.5 5131Ux G5131-46T21U G5131-46T21Uf 4.6 5131Vx G5131-47T21U G5131-47T21Uf 4.7 5131Wx G5131-48T21U G5131-48T21Uf 4.8 5131Xx G5131-49T21U G5131-49T21Uf 4.9 5131Yx G5131-50T21U G5131-50T21Uf 5.0 5131Zx Note: T2: SOT-89Absolute Maximum RatingsLX to GND…………….…..……………..…-0.3V to +7V CE to GND….……………..………..……...-0.3V to +7V VOUT to GND.…….…..................……….-0.3V to +7V Operating Temperature Range (Note 1)..-40°C to +85°CJunction Temperature ......…......…......……........+125°C Storage Temperature…………........…..-65°C to +150°C Reflow Temperature (soldering, 10 sec)…..…....+260°CStress beyond those listed under “Absolute Maximum Rating” may cause permanent damage to the device.Electrical Characteristics(V OUT = 3.3V, V IN = 1.8V, T A = 25°C )PARAMETER CONDITION MIN TYP MAX UNITOutput Voltage Accuracy-2 --- +2 % Input Voltage Range ------6.5VStart-up Voltage --- 0.9 ---VHold-on Voltage--- 0.5 --- VNo Switching (I DD2) --- 10 15 µASwitching (I DD1) --- 20 --- µAInput CurrentNo Load (I IN ) ---30 --- µA LX Switch On ResistanceV LX = 0.4V --- 2 6Ω LX Leakage Current V LX = 6.0V --- --- 0.1 µAMaximum Oscillation Frequency 70 100 130 KHzDuty Cycle65 75 85 %V LX Voltage Limit--- 1 --- V Efficiency--- 80 --- %Note 1: The G5130 are guaranteed to meet performance specifications from 0°C to 85°C. Specifications over the -40°C to 85°Coperating temperature range are assured by design, characterization and correlation with statistical process controls.Block DiagramCELX VOUTTypical Performance Characteristics(V IN= +3.0V, L=100µH, T A=25°C, unless otherwise noted.)Line Transient Load TransientRecommended Minimum FootprintSOT-89SOT-23-5Power On ResponsePackage InformationSOT-23-5 (T1) PackageNote:1. Package body sizes exclude mold flash protrusions or gate burrs2. Tolerance ±0.1000 mm (4mil) unless otherwise specified3. Coplanarity: 0.1000mm4. Dimension L is measured in gage planeDIMENSIONS IN MILLIMETERSYMBOLMIN NOM MAXA 1.00 1.10 1.30A1 0.00 ----- 0.10A2 0.70 0.80 0.90 b 0.35 0.40 0.50C 0.10 0.15 0.25D 2.70 2.90 3.10E 1.40 1.60 1.80e ----- 1.90(TYP) ----- e1 ----- 0.95 ----- H 2.60 2.80 3.00L 0.37 ------ ----- θ1 1º 5º9ºSOT-89 (T2) PackageDIMENSIONS IN MILLIMETER DIMENSIONS IN INCH SYMBOLMIN NOM MAX MIN NOM MAXA 1.40 1.50 1.60 0.055 0.059 0.063 A1 0.80 1.04 ----- 0.031 0.041 ----- b 0.36 0.42 0.48 0.014 0.016 0.018 b1 0.41 0.47 0.53 0.016 0.018 0.020 C 038 0.40 0.43 0.014 0.015 0.017 D 4.404.50 4.600.173 0.177 0.181 D1 1.40 1.60 1.75 0.055 0.062 0.069 HE ----- ----- 4.25 ----- ----- 0.167 E 2.40 2.50 2.60 0.094 0.098 0.102 e 2.90 3.00 3.10 0.114 0.118 0.122Taping SpecificationPACKAGE Q’TY/REELSOT-23-5 3,000 ea SOT-89 1,000 eaGMT Inc. does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and GMT Inc. reserves the right at any time without notice to change said circuitry and specifications.SOT-89 Package OrientationSOT-23-5 Package Orientation。

Zener Voltage Regulators200 mW SOD–323 Surface MountMM3Z2V0T1GSeriesThis series of Zener diodes is packaged in a SOD–323 surface mount package that has a power dissipation of 200 mW. They are designed to provide voltage regulation protection and are especially attractive in situations where space is at a premium. They are well suited for applications such as cellular phones, hand held portables, and high density PC boards.Specification Features:• Standard Zener Breakdown Voltage Range – 2.0 V to 75 V • Steady State Power Rating of 200 mW• Small Body Outline Dimensions: 0.067" x 0.049"(1.7 mm x 1.25 mm).Low Body Height: 0.035" (0.9 mm)• Package Weight: 4.507mg/unit• ESD Rating of Class 3 per Human Body Model • Pb-Free package is available.Mechanical Characteristics:CASE:Void-free, transfer-molded plasticFINISH:All external surfaces are corrosion resistant260°C for 10 SecondsPOLARITY:Cathode indicated by polarity band FLAMMABILITY RATING: UL94 V-0MOUNTING POSITION: AnyMAXIMUM RATINGSRating SymbolMax UnitTotal Device Dissipation FR–5 P DBoard(Note 1.) @ TA = 25°C 200 mW Derate above 25°C 1.5mW/°C Thermal Resistance fromR θJA635 °C/W Junction to Ambient Junction and StorageT J , T stg –65 to+150 °CTemperature Range 1. FR–4 Minimum PadDevicePackageShippingMM3Z2V0T1G Series SOD-3233000/Tape&ReelMM3Z2V0T3G SeriesSOD-32310000/Tape&ReelRev.A 1/6• S- Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC-Q101 Qualified and PPAP Capable.• We declare that the material of product compliance with RoHS requirements.ORDERING INFORMATIONMaximum case temperature for soldering purpose:MM3Z2V0T1G SeriesELECTRICAL CHARACTERISTICS(T A = 25°C unless otherwise noted,V F = 0.9 V Max. @ IF = 10 mA for all types)Symbol ParameterV Z Reverse Zener Voltage @ I ZT I ZT Reverse CurrentZ ZT Maximum Zener Impedance @ I ZT I ZK Reverse CurrentZ ZK Maximum Zener Impedance @ I ZK I R Reverse Leakage Current @ V R V R Reverse Voltage I F Forward Current V F Forward Voltage @ I FQ V Z Maximum Temperature Coefficient of V Z CMax. Capacitance @V R = 0 and f = 1 MHzRev.A 2/62.Zener voltage is measured with a pulse test current I Z at an ambient temperature of 25°C.Rev.A 3/6MM3Z2V0T1G SeriesTypical CharacteristicsZ Z T , D Y N A M I C I M P E D A N C E ()Ω1000100101.0C , C A P A C I T A N C E (p F )70V Z , NOMINAL ZENER VOLTAGE (V)Figure 3. Typical Capacitance 104.0V Z , NOMINAL ZENER VOLTAGE (V)Figure 4. Typical Leakage Current70605040302010Rev.A 4/6MM3Z2V0T1G SeriesTypical Characteristics12V Z , ZENER VOLTAGE (V)100101.00.10.01108.06.04.02.00I Z , Z E N E R C U R R E N T (m A )V Z , ZENER VOLTAGE (V)Figure 5. Zener Voltage versus Zener Current(V Z Up to 12 V)Figure 6. Zener Voltage versus Zener Current(12 V to 75 V)1001010.10.011030507090I Z , Z E N E R C U R R E N T (m A )Figure 7. Steady State Power DeratingRev.A 5/6300200100005025100150P O W E R D I S S I P A T I O N : P d (m W )AMBIENT TEMPERA TURE : T a (°C)MM3Z2V0T1G SeriesPACKAGE DIMENSIONSSOD-323Rev.A 6/6HE NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: MILLIMETERS.3.LEAD THICKNESS SPECIFIED PER L/F DRAWING WITH SOLDER PLATING.4.DIMENSIONS A AND B DO NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS.5.DIMENSION L IS MEASURED FROM END OF RADIUS.NOTE 3DIM MIN NOM MAX MILLIMETERSA 0.800.90 1.00A10.000.050.10A30.15 REF b 0.250.320.4C 0.0890.120.177D 1.60 1.70 1.80E 1.15 1.25 1.350.082.30 2.50 2.70L 0.0310.0350.0400.0000.0020.0040.006 REF0.0100.0120.0160.0030.0050.0070.0620.0660.0700.0450.0490.0530.0030.0900.0980.105MINNOM MAX INCHESSOLDERING FOOTPRINT*MM3Z2V0T1G Series。

TOSHIBA Power Transistor Module Silicon NPN Triple Diffused Type (Darlington power transistor 4 in 1)MP4513High Power Switching Applications.Hammer Drive, Pulse Motor Drive and Inductive Load Switching.· Package with heat sink isolated to lead (SIP 12 pin) · High collector power dissipation (4 devices operation) : P T = 5 W (Ta = 25°C)· High collector current: I C (DC) = 5 A (max)· High DC current gain: h FE = 1000 (min) (V CE = 3 V, I C = 3 A) · Diode included for absorbing fly-back voltage.Maximum Ratings (Ta = 25°C)Characteristics Symbol Rating UnitCollector-base voltageV CBO100 V Collector-emitter voltage V CEO 100 V Emitter-base voltage V EBO5 V DC I C5 Collector currentPulse I CP8AContinuous base current I B0.1 A Collector power dissipation (1 device operation, Ta = 25°C) P C3.0 W Ta = 25°C5.0Collector power dissipation(4 devices operation) Tc = 25°CP T25WIsolation voltage V Isol 1000V Junction temperature T j 150 °C Storage temperature rangeT stg−55 to 150°CArray ConfigurationIndustrial ApplicationsUnit: mmJEDEC ― JEITA―TOSHIBA 2-32B1A Weight: 6.0 g (typ.)176Thermal CharacteristicsCharacteristics Symbol Max UnitThermal resistance of junction toambient(4 devices operation, Ta = 25°C) ΣR th (j-a)25 °C/WThermal resistance of junction to case (4 devices operation, Tc = 25°C) ΣR th (j-c)5.0 °C/WMaximum lead temperature for soldering purposes (3.2 mm from case for 10 s)T L 260°CElectrical Characteristics (Ta = 25°C)Emitter-Collector Diode Ratings and Characteristics (Ta = 25°C)Characteristics Symbol Test Condition Min Typ. Max UnitForward current I FM ―― ― 5 A Surge current I FSM t = 1 s, 1 shot ―― 8 AForward voltage V F I F = 1 A, I B = 0 A― 1.1 1.8 V Reverse recovery time t rr ― 3.0 ― µs Reverse recovery chargeQ rrI F = 5 A, V BE = −3 V, dI F /dt = −50 A/µs― 40 ― µCFlyback-Diode Rating and Characteristics (Ta = 25°C)Max UnitTyp.Characteristics Symbol TestCondition Min Forward current I FM――― 3 A Reverse current I R V R = 100 V ―― 0.4 µA Reverse voltage V R I R = 100 µA 100 ―― V Forward voltage V F I F = 1 A ―― 1.8 VCollector current I C (A)h FE – I CD C c u r r e n t g a i n h F EBase current I B (mA)V CE – I BC o l l e c t o r -e m i t t e r v o l t a g e V C E (V )Collector-emitter voltage V CE (V)Base-emitter voltage V BE (V)I C – V BEC o l l e c t o r c u r r e n t I C (A )Collector current I C (A)V CE (sat) – I CC o l l e c t o r -e m i t t e r s a t u r a t i o n v o l t a g e V C E (s a t ) (V )Collector current I C (A)V BE (sat) – I CB a s e -e m i t t e r s a t u r a t i o n v o l t a g e V B E (s a t ) (V )0 0.8 1.6 2.4 3.2 4.00.030.1 0.3 1 3 10 30 1000.10.3 1 3 100.10.3 1 3 100.10.3 1 3 10 300.03C o l l e c t o r c u r r e n t I C (A )I C – V CE2 4 6 8 10 12Collector-emitter voltage V CE (V)Safe Operating AreaC o l l e c t o r c u r r e n t I C (A )r th – t wPulse width t w (s)T r a n s i e n t t h e r m a l r e s i s t a n c e r t h (°C /W )Ambient temperature Ta (°C)P T – TaT o t a l p o w e r d i s s i p a t i o n P T (W )Total power dissipation P T (W)∆T j – P TJ u n c t i o n t e m p e r a t u r e i n c r e a s e ∆T j (°C )40 80 120 1602000.001 0.01 0.1 110 100 10002 4 6810· TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.. · The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this document shall be made at the customer’s own risk. · The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any intellectual property or other rights of TOSHIBA CORPORATION or others. · The information contained herein is subject to change without notice.000707EAARESTRICTIONS ON PRODUCT USE。

Data Sheet No. PD60338IRMCK311 Dual Channel Sensorless Motor Control IC forAppliancesFeaturesMCE TM (Motion Control Engine) - Hardware based computation engine for high efficiency sinusoidal sensorless control of permanent magnet AC motor Integrated Power Factor Correction controlSupports both interior and surface permanent magnet motorsBuilt-in hardware peripheral for single shunt current feedback reconstructionNo external current or voltage sensing operational amplifier requiredDual channel three/two-phase Space Vector PWM Three-channel analog output (PWM)Embedded 8-bit high speed microcontroller (8051) for flexible I/O and man-machine controlJTAG programming port for emulation/debugger Two serial communication interface (UART)I2C/SPI serial interfaceWatchdog timer with independent analog clockThree general purpose timers/countersTwo special timers: periodic timer, capture timer Internal ‘One-Time Programmable’ (OTP) memory and internal RAM for final production usagePin compatible with IRMCF311 RAM version1.8V/3.3V CMOS Product SummaryMaximum crystal frequency 60 MHz Maximum internal clock (SYSCLK) frequency 128 MHz Maximum 8051 clock frequency 33 MHz Sensorless control computation time 11 μsec typ MCE TM computation data range 16 bit signed 8051 OTP Program memory 56K bytes MCE program and Data RAM 8K bytes GateKill latency (digital filtered) 2 μsec PWM carrier frequency counter 16 bits/ SYSCLK A/D input channels 6 A/D converter resolution 12 bits A/D converter conversion speed 2 μsec 8051 instruction execution speed 2 SYSCLK Analog output (PWM) resolution 8 bits UART baud rate (typ) 57.6K bps Number of I/O (max) 14 Package (lead-free) QFP64 Operating temperature -40°C ~ 85°CDescriptionIRMCK311 is a high performance OTP based motion control IC designed primarily for appliance applications. IRMCK311 is designed to achieve low cost and high performance control solutions for advanced inverterized appliance motor control. IRMCK311 contains two computation engines. One is Motion Control Engine (MCE TM) for sensorless control of permanent magnet motors; the other is an 8-bit high-speed microcontroller (8051). Both computation engines are integrated into one monolithic chip. The MCE TM contains a collection of control elements such as Proportional plus Integral, Vector rotator, Angle estimator, Multiply/Divide, Low loss SVPWM, Single Shunt IFB. The user can program a motion control algorithm by connecting these control elements using a graphic compiler. Key components of the sensorless control algorithms, such as the Angle Estimator, are provided as complete pre-defined control blocks implemented in hardware. A unique analog/digital circuit and algorithm to fully support single shunt current reconstruction is also provided. The 8051 microcontroller performs 2-cycle instruction execution (16MIPS at 33MHz). The MCE and 8051 microcontroller are connected via dual port RAM to process signal monitoring and command input. An advanced graphic compiler for the MCE TM is seamlessly integrated into the MATLAB/Simulink environment, while third party JTAG based emulator tools are supported for 8051 developments. IRMCK311 comes with a small QFP64 pin lead-free package.TABLE OF CONTENTS1 Overview (5)2 IRMCK311 Block Diagram and Main Functions (6)3 Pinout (8)4 Input/Output of IRMCK311 (9)4.1 8051 Peripheral Interface Group (10)4.2 Motion Peripheral Interface Group (10)4.3 Analog Interface Group (11)4.4 Power Interface Group (11)4.5 Test Interface (12)5 Application Connections (13)6 DC Characteristics (14)6.1 Absolute Maximum Ratings (14)6.2 System Clock Frequency and Power Consumption (14)6.3 Digital I/O DC Characteristics (15)6.4 PLL and Oscillator DC Characteristics (15)6.5 Analog I/O DC Characteristics (16)6.6 Under Voltage Lockout DC Characteristics (17)6.7 AREF Characteristics (17)7 AC Characteristics (18)7.1 PLL AC Characteristics (18)7.2 Analog to Digital Converter AC Characteristics (19)7.3 Op Amp AC Characteristics (19)7.4 SYNC to SVPWM and A/D Conversion AC Timing (20)7.5 GATEKILL to SVPWM AC Timing (21)7.6 Interrupt AC Timing (21)7.7 I2C AC Timing (22)7.8 SPI AC Timing (23)7.8.1 SPI Write AC timing (23)7.8.2 SPI Read AC Timing (24)7.9 UART AC Timing (25)7.10 CAPTURE Input AC Timing (26)7.11 JTAG AC Timing (27)7.12 OTP Programming Timing (28)8 I/O Structure (29)9 Pin List (32)Dimensions (35)10 Package11 Part Marking Information (36)Information (36)12 OrderingTABLE OF FIGURESFigure 1. Typical Application Block Diagram Using IRMCK311 (5)Figure 2. IRMCK311 Internal Block Diagram (6)Figure 3. IRMCK311 Pin Configuration (8)Figure 4. Input/Output of IRMCK311 (9)Figure 5. Application Connection of IRMCK311 (13)Figure 6. Clock Frequency vs. Power Consumption (14)Figure 7 Crystal oscillator circuit (18)Figure 8 Voltage droop of sample and hold (19)Figure 9 SYNC to SVPWM and A/D conversion AC Timing (20)Figure 10 GATEKILL to SVPWM AC Timing (21)Figure 11 Interrupt AC Timing (21)Figure 12 I2C AC Timing (22)Figure 13 SPI AC Timing (23)Figure 14 SPI Read AC Timing (24)Figure 15 UART AC Timing (25)Figure 16 CAPTURE Input AC Timing (26)Figure 17 JTAG AC Timing (27)Figure 18 OTP Programming Timing (28)Figure 19 All digital I/O except motor PWM output (29)Figure 20 RESET, GATEKILL I/O (29)Figure 21 Analog input (30)Figure 22 Analog operational amplifier output and AREF I/O structure (30)Figure 23 VPP programming pin I/O structure (30)Figure 24 VSS and AVSS pin structure (31)Figure 25 VDD1 and VDDCAP pin structure (31)Figure 26 XTAL0/XTAL1 pins structure (31)TABLE OF TABLESTable 1. Absolute Maximum Ratings (14)Table 2. System Clock Frequency (14)Table 3. Digital I/O DC Characteristics (15)Table 4. PLL DC Characteristics (15)Table 5. Analog I/O DC Characteristics (16)Table 6. UVcc DC Characteristics (17)Table 7. AREF DC Characteristics (17)Table 8. PLL AC Characteristics (18)Table 9. A/D Converter AC Characteristics (19)Table 10. Current Sensing OP Amp AC Characteristics (19)Table 11. SYNC AC Characteristics (20)Table 12. GATEKILL to SVPWM AC Timing (21)Table 13. Interrupt AC Timing (21)Table 14. I2C AC Timing (22)Table 15. SPI Write AC Timing (23)Table 16. SPI Read AC Timing (24)Table 17. UART AC Timing (25)Table 18. CAPTURE AC Timing (26)Table 19. JTAG AC Timing (27)Table 20. OTP Programming Timing (28)Table 21. Pin List (32)1 OverviewIRMCK311 is a new International Rectifier integrated circuit device primarily designed as a one-chip solution for complete inverter controlled appliance dual motor control applications. Unlike a traditional microcontroller or DSP, the IRMCK311 provides a built-in closed loop sensorless control algorithm using the unique Motion Control Engine (MCE TM) for permanent magnet motors. The MCE TM consists of a collection of control elements, motion peripherals, a dedicated motion control sequencer and dual port RAM to map internal signal nodes. IRMCK311 also employs a unique single shunt current reconstruction circuit to eliminate additional analog/digital circuitry and enables a direct shunt resistor interface to the IC. The sensorless control is the same for both motors with a single shunt current sensing capability. Motion control programming is achieved using a dedicated graphical compiler integrated into the MATLAB/Simulink TM development environment. Sequencing, user interface, host communication, and upper layer control tasks can be implemented in the 8051 high-speed 8-bit microcontroller. The 8051 microcontroller is equipped with a JTAG port to facilitate emulation and debugging tools. Figure 1 shows a typical application schematic using IRMCK311.IRMCK311 is intended for volume production purpose and contains 64K bytes of OTP (One Time Programming) ROM, which can be programmed through a JTAG port. For a development purpose use, IRMCF311 contains a 48k byte of RAM in place of program OTP to facilitate an application development work. Both IRMCF311 and IRMCK311 come in the same 64-pin QFP package with identical pin configuration to facilitate PC board layout and transition to mass productionFigure 1. Typical Application Block Diagram Using IRMCK3112 IRMCK311 Block Diagram and Main FunctionsM o t i o n C o n t r o l B u sFigure 2. IRMCK311 Internal Block DiagramIRMCK311 contains the following functions for sensorless AC motor control applications:• Motion Control Engine (MCE TM )o Proportional plus Integral block o Low pass filtero Differentiator and lag (high pass filter) o Ramp o Limito Angle estimate (sensorless control) o Inverse Clark transformation o Vector rotator o Bit latch o Peak detect o Transitiono Multiply-divide (signed and unsigned)o Divide (signed and unsigned)o Addero Subtractoro Comparatoro Countero Accumulatoro Switcho Shifto ATAN (arc tangent)o Function block (any curve fitting, nonlinear function)o16-bit wide Logic operations (AND, OR, XOR, NOT, NEGATE)o MCE TM program and data memory (6K byte). Note 1o MCE TM control sequencer• 8051 microcontrollero Three 16-bit timer/counterso16-bit periodic timero16-bit analog watchdog timero16-bit capture timero Up to 36 discrete I/Oso Eleven-channel 12-bit A/DFive buffered channels (0 – 1.2V input)One unbuffered channel (0 – 1.2V input)o JTAG port (4 pins)o Up to three channels of analog output (8-bit PWM)o Two UARTo I2C/SPI porto 64K byte Note 1program One-Time Programmable memoryo2K byte data RAM. Note 2Note 1: Total size of OTP memory is 64K byte, however MCE program occupiesmaximum 8K byte which will be loaded into internal RAM at a powerup/bootprocess. Therefore only 56K byte OTP memory area is usable for 8051microcontroller.Note 2: Total size of RAM is 8K byte including MCE program, MCE data, and 8051data. Different sizes can be allocated depending on applications.3 PinoutXTAL0XTAL1P1.1/RXD P1.2/TXDVDD1VSS VDD2P1.3/SYNC/SCKP1.4/CAPP 3.6/R X D 1P 3.7/T X D 1FPWMVL FPWMUL V S SV D D 2A V D DA V S SA I N 0A R E FP 2.7/A O P W M 1P 2.6/A O P W M 0CPWMUH CPWMVH CPWMWH CPWMUL CPWMVL CPWMWL CGATEKILL VDD1VSS I F B C OI F B C +I F B C -P L L V S SP L L V D DR E S E TN CT C KP 5.3/T D IP 5.2/T D OP 5.1/T M SS D A /C S 0S C L /S O -S I /V P PP 5.0/P F C G K I L LP F C P W M V S SFGATEKILL FPWMWL VAC-VAC+VACO IPFCO IPFC+IPFC-I F B F OI F B F +I F B F -P3.0/INT2/CS1C M E X TFPWMVH FPWMUHFPWMWH A I N 1P 3.2/I N T 0Figure 3. IRMCK311 Pin Configuration4 Input/Output of IRMCK311All I/O signals of IRMCK311 are shown in Figure 4. All I/O pins are 3.3V logic interface except A/D interface pins.Figure 4. Input/Output of IRMCK3114.1 8051 Peripheral Interface GroupUART InterfaceP1.1/RXD Input, Receive data to IRMCK311, can be configured as P1.1P1.2/TXD Output, Transmit data from IRMCK311, can be configured as P1.22nd channel Receive data to IRMCK311, can be configured as P3.6 P3.6/RXD1 Input,P3.7/TXD1 Output,2nd channel Transmit data from IRMCK311, can be configured as P3.7Discrete I/O InterfaceP1.3/SYNC/SCK Input/output port 1.3, can be configured as SYNC output or SPI clock P1.4/CAP Input/output port 1.4, can be configured as Capture Timer inputP3.0/INT2/CS1 Input/output port 3.0, can be configured as external interrupt 2 or SPIchip select 1P3.2/INT0 Input/output port 3.2, can be configured as external interrupt 0Analog Output InterfaceP2.6/AOPWM0 Input/output, can be configured as 8-bit PWM output 0 withprogrammable carrier frequencyP2.7/AOPWM1 Input/output, can be configured as 8-bit PWM output 1 withprogrammable carrier frequencyCrystal InterfaceXTAL0 Input, connected to crystalXTAL1 Output, connected to crystalReset InterfaceRESET Inout, system reset, needs to be pulled up to VDD1 but doesn’t requireexternal RC time constantI2C/SPI InterfaceSCL/SO-SI/VPP Output, I2C clock output, SPI SO-SII2C Data line, Chip Select 0 of SPISDA/CS0 Input/output,P3.0/INT2/CS1 Input/output port 3.0, can be configured as external interrupt 2 or SPIchip select 1P1.3/SYNC/SCK Input/output port 1.3, can be configured as SYNC output or SPI clock 4.2 Motion Peripheral Interface GroupPWMCPWMUH Output, motor 1 PWM phase U high side gate signalCPWMUL Output, motor 1 PWM phase U low side gate signalCPWMVH Output, motor 1 PWM phase V high side gate signalCPWMVL Output, motor 1 PWM phase V low side gate signalCPWMWH Output, motor 1 PWM phase W high side gate signalCPWMWL Output, motor 1 PWM phase W low side gate signalFPWMUH Output, motor 2 PWM phase U high side gate signalFPWMUL Output, motor 2 PWM phase U low side gate signal分销商库存信息: IRIRMCK311TR。

丝印513贴片稳压二极管
丝印513贴片稳压二极管是一种电子元器件，主要用于电路中的稳压功能。

它能够将电路中的不稳定电压转换为稳定的恒定电压，保护其他元器件免受电压变化的影响。

该二极管采用贴片封装，具有小尺寸、轻量、低功耗等优点，适用于板载式电路设计。

其丝印号513表示其具有5.1V的稳压电压，其它型号的丝印号则表示其不同的稳压电压值。

该二极管还有一些特性，如最大可承受电流、正向压降、反向漏电流等。

在选型时需根据实际电路需求进行选择。

总之，丝印513贴片稳压二极管是一种用于电路稳压的小型电子元件，能够将不稳定的电压转换为稳定的恒定电压，具有广泛的应用领域。

DatasheetDTD723Y seriesNPN 200mA 30V Digital Transistors (Bias Resistor Built-in Transistors)l Features1) Built-In Biasing Resistorsl Inner circuit2) Built-in bias resistors enable the configuration of an inverter circuit without connecting external input resistors (see inner circuit).3) The bias resistors consist of thin-film resistors with complete isolation to allow negative biasing of the input. They also have the advantage of completely eliminating parasitic effects.4) Only the on/off conditions need to be set for operation, making the circuit design easy.5) Complementary PNP Types :DTB723Y series 6) Lead Free/RoHS Compliant.l ApplicationSwitching circuit, Inverter circuit, Interface circuit, Driver circuitDTD723YE OUTIN GNDOUTGND*2 Each terminal mounted on a reference footprint050100150200510I Fig.3 Output current vs. output voltage0.11100.111010010000.11101000.511.52Fig.1 Input voltage vs. output current (ON characteristics)I N P U T V O L T A G E : V I (o n ) [V ]OUTPUT CURRENT : I O [mA] O U T P U T C U R R E N T : I O [m A ]INPUT VOLTAGE : V I(off)[V]O U T P U T C U R R E N T : I O [m A ]OUTPUT VOLTAGE : V O [V] Fig.4 DC current gain vs. output current0.010.111101001000Fig.5 Output voltage vs. output currentO U T P U T V O L T A G E : V O (o n ) [V ]OUTPUT CURRENT : I O [mA]Dimension in mm/inchesVMT3Patterm of terminal position areasDimension in mm/inchesEMT3Patterm of terminal position areasNoticeN o t e sNo copying or reprod uction of this d ocument, 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 damage 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 of anyof the Prod ucts for the above special purposes. If a Prod uct is intend ed 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: ROHMDTD723YMT2L。

123654OUTIN-IN+REFGNDV+Reference RINA213-Q1INA214-Q1 SBOS475B–MARCH2009–REVISED JUNE2010 VOLTAGE OUTPUT,HIGH OR LOW SIDE MEASUREMENT,BIDIRECTIONAL,ZERO-DRIFTCURRENT SHUNT MONITORCheck for Samples:INA213-Q1,INA214-Q1FEATURES APPLICATIONS•Notebook Computers•Qualified for Automotive Applications•Cell Phones•Wide Common-Mode Range:–0.3V to26V•Telecom Equipment•Offset Voltage:±100µV(Max)•Power ManagementEnables Shunt Drops of10mV Full-Scale•Battery Chargers•Accuracy•Welding Equipment–±1%Gain Error(Max Over Temperature)–0.5µV/°C Offset Drift(Max)DCK PACKAGE(TOP VIEW)–10ppm/°C Gain Drift(Max)•Choice of Gain–INA213:50V/V–INA214:100V/V•Quiescent Current:100µA(Max)•SC70PackageDESCRIPTIONThe INA213and INA214are voltage-output current-shunt monitors that can sense drops across shunts at common-mode voltages from–0.3V to26V,independent of the supply voltage.The INA213offers a fixed gain of50V/V,and the INA214offers a fixed gain of100V/V.The low offset of the zero-drift architecture enables current sensing with maximum drops across the shunt as low as10-mV full-scale.The devices operate from a single2.7-V to26-V power supply,drawing a maximum of100µA of supply current. They are specified over the operating temperature range of–40°C to125°C and are offered in an SC70package.Please be aware that an important notice concerning availability,standard warranty,and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.All trademarks are the property of their respective owners.PRODUCTION DATA information is current as of publication date.Copyright©2009–2010,Texas Instruments Incorporated Products conform to specifications per the terms of the TexasINA213-Q1INA214-Q1SBOS475B–MARCH2009–REVISED This integrated circuit can be damaged by ESD.Texas Instruments recommends that all integrated circuits be handled with appropriate precautions.Failure to observe proper handling and installation procedures can cause damage.ESD damage can range from subtle performance degradation to complete device failure.Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.ORDERING INFORMATION(1)T J GAIN PACKAGE(2)ORDERABLE PART NUMBER TOP-SIDE MARKING50V/V SC70–DCK Reel of3000INA213AQDCKRQ1OBX –40°C to125°C100V/V SC70–DCK Reel of3000INA214AQDCKRQ1OFT(1)For the most current package and ordering information,see the Package Option Addendum at the end of this document,or see the TIweb site at .(2)Package drawings,thermal data,and symbolization are available at /packaging.ABSOLUTE MAXIMUM RATINGS(1)Over operating free-air temperature range,unless otherwise noted.V S Supply voltage26VDifferential(V IN+)–(V IN–)–26V to26VV IN+Analog inputs voltage(2)V IN–Common-Mode(3)GND–0.3V to26VV REF REF input voltage GND–0.3V to V++0.3VV OUT Output voltage(3)GND–0.3V to V++0.3VI IN Input current into any pin(3)5mAq JA Thermal impedance,junction to free air250°C/WT A Operating temperature–55°C to150°CT stg Storage temperature–65°C to150°CT J Junction temperature150°CHuman Body Model(HBM)3000VESD Electrostatic discharge rating Charged-Device Model(CDM)1000VMachine Model(MM)150V(1)Stresses above these ratings may cause permanent damage.Exposure to absolute maximum conditions for extended periods maydegrade device reliability.These are stress ratings only,and functional operation of the device at these or any other conditions beyond those specified is not implied.(2)V IN+and V IN–are the voltages at the IN+and IN–pins,respectively.(3)Input voltage at any pin may exceed the voltage shown if the current at that pin is limited to5mA.RECOMMENDED OPERATING CONDITIONSover operating free-air temperature range(unless otherwise noted)MIN MAX UNIT V S Supply voltage 2.726VT J Junction temperature–40125°C2Submit Documentation Feedback Copyright©2009–2010,Texas Instruments IncorporatedINA213-Q1INA214-Q1 SBOS475B–MARCH2009–REVISED JUNE2010 ELECTRICAL CHARACTERISTICSV SENSE=V IN+–V IN–,V S=+5V,V IN+=12V,V REF=V S/2(unless otherwise noted)PARAMETER TEST CONDITIONS T A(1)MIN TYP MAX UNITCommon-mode inputV CM Full range–0.326V rangeINA213100120Common-mode V IN+=0V to26V,CMRR Full range dB rejection ratio V SENSE=0mV INA214100140INA213±5±100V OS Offset voltage RTI(2),V SENSE=0mV25°CµVINA214±1±60Offset voltage vsdV OS/dT Full range0.10.5µV/°C temperature(3)Offset voltage vs V S=2.7V to18V,PSR25°C±0.1±10µV/V power supply V IN+=18V,V SENSE=0mVI B Input bias current V SENSE=0mV25°C152835µAI OS Input offset current V SENSE=0mV25°C±0.02µAINA21350Gain V/VINA214100Gain error V SENSE=–5mV to5mV Full range±0.02±1%Gain error vsFull range310ppm/°C temperature(3)Nonlinearity error V SENSE=–5mV to5mV25°C±0.01%Maximum capacitiveNo sustained oscillation25°C1nF loadOutput voltage swingto V+power-supply R L=10kΩto GND Full range V+–0.05V+–0.2Vrail(4)Output voltage swing V GND+V GND+Full range V to GND0.0050.05BW Bandwidth C LOAD=10pF25°C14kHzSR Slew rate25°C0.4V/µsVoltage noise density RTI(2)25°C25nV/√Hz25°C65100I Q Quiescent current V SENSE=0mVµAFull range115(1)Full range T A=–40°C to125°C(2)RTI=referred to input(3)Not production tested(4)See Typical Characteristic,Output Voltage Swing vs Output Current(Figure10).Copyright©2009–2010,Texas Instruments Incorporated Submit Documentation Feedback3T emperature (C)°O f f s e t V o l t a g e (V )m 100806040200-20-40-60-80-100-50-25150025*******125P o p u l a t i o nOffset Voltage (V)m112233-3-3-2-2-1-1-T emperature (C)°C M R R (V /V )m 543210-1-2-3-4-5-50-25150025*******125P o p u l a t i o nCommon-Mode Rejection Ratio (V/V)m 5.-5.-4.-4.-3.-3.-2.-2.-1.-1.-0.0.1.1.2.2.3.3.4.4.INA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010TYPICAL CHARACTERISTICST A =25°C,V S =5V,V IN+=12V,and V REF =V S /2(unless otherwise noted)INPUT OFFSET VOLTAGE OFFSET VOLTAGE PRODUCTION DISTRIBUTIONvs TEMPERATUREFigure 1.Figure 2.COMMON-MODE REJECTION COMMON-MODE REJECTION RATIOPRODUCTION DISTRIBUTIONvs TEMPERATUREFigure 3.Figure 4.4Submit Documentation Feedback Copyright ©2009–2010,Texas Instruments IncorporatedT emperature (C)°G a i n E r r o r (%)1.00.80.60.40.20-0.2-0.4-0.6-0.8-1.0-50-25150255075100125P o p u l a t i o nGain Error (%)1.-1.-0.-0.-0.-0.-0.-0.-0.-0.-0.0.0.0.0.0.0.0.0.0.Frequency (Hz)G a i n (d B )70605040302010010-1010010M1k10k 100k1MFrequency (Hz)|P S R R | (d B )160140120100806040200110100k1001k10kINA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010TYPICAL CHARACTERISTICS (continued)T A =25°C,V S =5V,V IN+=12V,and V REF =V S /2(unless otherwise noted)GAIN ERRORGAIN ERROR PRODUCTION DISTRIBUTIONvs TEMPERATUREFigure 5.Figure 6.GAINPOWER-SUPPLY REJECTION RATIOvs FREQUENCYvs FREQUENCYFigure 7.Figure 8.Copyright ©2009–2010,Texas Instruments Incorporated Submit Documentation Feedback 5Frequency (Hz)|C M R R | (d B )1601401201008060402001101M1001k10k100k(V+)-(V+)-(V+)-(V+)-(V+)-(V+)-O u t p u t V o l t a g e S w i n g (V )5101520Output Current (mA)25303540Common-Mode Voltage (V)I n p u t B i a s C u r r e n t (A )m-053010152025Common-Mode Voltage (V)I n p u t B i a s C u r r e n t (A )m-053010152025T emperature (C)°I n p u t B i a s C u r r e n t (A )m 35302520151050-50-25150255075100125T emperature (C)°Q u i e s c e n t C u r r e n t (A )m 1009080706050403020100-50-25150255075100125INA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010TYPICAL CHARACTERISTICS (continued)T A =25°C,V S =5V,V IN+=12V,and V REF =V S /2(unless otherwise noted)COMMON-MODE REJECTION RATIOOUTPUT VOLTAGE SWING vs FREQUENCYvs OUTPUT CURRENTFigure 9.Figure 10.INPUT BIAS CURRENT vs COMMON-MODE VOLTAGEINPUT BIAS CURRENT vs COMMON-MODE VOLTAGEwith SUPPLY VOLTAGE =+5Vwith SUPPLY VOLTAGE =0V (Shutdown)Figure 11.Figure 12.INPUT BIAS CURRENT QUIESCENT CURRENT vs TEMPERATUREvs TEMPERATUREFigure 13.Figure 14.6Submit Documentation Feedback Copyright ©2009–2010,Texas Instruments IncorporatedR e f e r r e d -t o -I n p u t V o l t a g e N o i s e (200n V /d i v )Time (1s/div)Frequency (Hz)I n p u t -R e f f e r e d V o l t a g e N o i s e (n V /)Öz 100101101001k 100k10kC o m m o n -M o d e V o l t a g e (1V /d i v )Output Voltage (40mV/div)Time (50m s/div)O u t p u t V o l t a g e (0.5V /d i V )I n p u t V o l t a g e (5m V /d i V )Time (100m s/div)2V /d i vTime (250m s/div)0V2V /d i vTime (250m s/div)0VINA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010TYPICAL CHARACTERISTICS (continued)T A =25°C,V S =5V,V IN+=12V,and V REF =V S /2(unless otherwise noted)INPUT-REFERRED VOLTAGE NOISE0.1Hz to 10Hz VOLTAGE NOISEvs FREQUENCY(Referred-to-Input)Figure 15.Figure 16.STEP RESPONSE COMMON-MODE VOLTAGE (10mV PP Input Step)TRANSIENT RESPONSEFigure 17.Figure 18.INVERTING DIFFERENTIAL INPUT OVERLOADNONINVERTING DIFFERENTIAL INPUT OVERLOADFigure 19.Figure 20.Copyright ©2009–2010,Texas Instruments Incorporated Submit Documentation Feedback 71V /d i vTime (100s/div)m 0V1V /d i vTime (100m s/div)0VINA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010TYPICAL CHARACTERISTICS (continued)T A =25°C,V S =5V,V IN+=12V,and V REF =V S /2(unless otherwise noted)START-UP RESPONSEBROWNOUT RECOVERYFigure 21.Figure 22.8Submit Documentation Feedback Copyright ©2009–2010,Texas Instruments IncorporatedR INA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010APPLICATION INFORMATIONBASIC CONNECTIONSFigure 23shows the basic connections of the INA213or INA214.The input pins,IN+and IN–,should be connected as closely as possible to the shunt resistor to minimize any resistance in series with the shunt resistance.Figure 23.Typical ApplicationPower-supply bypass capacitors are required for stability.Applications with noisy or high impedance power supplies may require additional decoupling capacitors to reject power-supply noise.Connect bypass capacitors close to the device pins.POWER SUPPLYThe input circuitry of the INA21x can accurately measure beyond its power-supply voltage,V+.For example,the V+power supply can be 5V,whereas the load power supply voltage can be as high as 26V.However,the output voltage range of the OUT terminal is limited by the voltages on the power-supply pin.Note also that the INA21x can withstand the full –0.3V to 26V in the input pins,regardless of whether the device has power applied or not.SELECTING R SThe zero-drift offset performance of the INA21x offers several benefits.Most often,the primary advantage of the low offset characteristic enables lower full-scale drops across the shunt.For example,non-zero-drift current shunt monitors typically require a full-scale range of 100mV.The INA21x gives equivalent accuracy at a full-scale range on the order of 10mV.This accuracy reduces shunt dissipation by an order of magnitude with many additional benefits.Alternatively,there are applications that must measure current over a wide dynamic range that can take advantage of the low offset on the low end of the measurement.Most often,these applications can use the lower gain INA213or INA214to accommodate larger shunt drops on the upper end of the scale.For instance,an INA213operating on a 3.3-V supply could easily handle a full-scale shunt drop of 60mV,with only 60µV of offset.UNIDIRECTIONAL OPERATIONUnidirectional operation allows the INA21x to measure currents through a resistive shunt in one direction.The most frequent case of unidirectional operation sets the output at ground by connecting the REF pin to ground.In unidirectional applications where the highest possible accuracy is desirable at very low inputs,bias the REF pin to a convenient value above 50mV to get the device output swing into the linear range for zero inputs.Copyright ©2009–2010,Texas Instruments Incorporated Submit Documentation Feedback 9R <<R GainError% = 100[100{R/(R + R )}]-FILT ´INA213-Q1INA214-Q1SBOS475B –MARCH 2009–REVISED JUNE 2010A less frequent case of unipolar output biasing is to bias the output by connecting the REF pin to the supply;in this case,the quiescent output for zero input is at quiescent supply.This configuration would only respond to negative currents (inverted voltage polarity at the device input).BIDIRECTIONAL OPERATIONBidirectional operation allows the INA21x to measure currents through a resistive shunt in two directions.In this case,the output can be set anywhere within the limits of what the reference inputs allow (that is,between 0V and V+).Typically,it is set at half-scale for equal range in both directions.In some cases,however,it is set at a voltage other than half-scale when the bidirectional current is nonsymmetrical.The quiescent output voltage is set by applying voltage to the reference input.Under zero differential input conditions the output assumes the same voltage as is applied to the reference input.INPUT FILTERINGAn obvious and straightforward location for filtering is at the output of the INA21x;however,this location negates the advantage of the low output impedance of the internal buffer.The only other option for filtering is at the input pins of the INA21x;this location requires consideration of the ±30%tolerance of the input impedance.Figure 24shows a filter placed at the input pins.Figure 24.Input FilterUsing the lowest possible resistor values minimizes both the initial shift in gain and effects of tolerance.The effect on initial gain is given by Equation 1:(1)Where R is the value for R 3or R 4from Table 1for the model in question.Table 1.PRODUCT GAIN (V/V)R 3AND R 4INA2135020k ΩINA21410010k ΩUsing an INA212,for example,the total effect on gain error can be calculated by replacing the R with 1k Ω–30%,(or 700Ω)or 1k Ω+30%(or 1.3k Ω).The tolerance extremes of R FILT can also be inserted into the equation.If a pair of 100-Ω1%resistors are used on the inputs,the initial gain error is approximately 2%.10Submit Documentation Feedback Copyright ©2009–2010,Texas Instruments Incorporated分销商库存信息:TIINA213AQDCKRQ1INA214AQDCKRQ1。

DTD433系列工业级无线数传模组使用手册铝合金外壳 RS232串口PVC塑料外壳RS232/RS485串口西安达泰电子有限责任公司029-********，85277568, FAX:029-********西安市朱雀大街56号明德门凯旋广场D323E-MAIL：info029@ data029@本公司其他系列产品图片及详细资料，欢迎查看网站 本文档更新日期：2009-01-16 版本号：V3.0该产品在不断改进功能，新增或修改功能的说明以最新版本为准。

恕不另行通知。

目 录一、概述....................................................................................................................................................２二、DTD433数传模组的特性...................................................................................................................３2．1 DTD433无线数传模组的技术指标..........................................................................................３2．2DTD433无线数传模组的特点..................................................................................................３三、DTD433数传模组的使用方法...........................................................................................................４3．1 DTD433X_S塑壳数传模组与终端设备的连接......................................................................４3．2 DTD433X_L铝壳数传模组与终端设备的连接......................................................................８3．3 天线配置..................................................................................................................................９四、DTD433工业级数传模组的应用...................................................................................................１０4．1 选择无线监控的优势..........................................................................................................１０4．2无线数传模块、模组和电台的区别...................................................................................１０4．3 无线数传模组的通信..........................................................................................................１１4．4 模组应用领域......................................................................................................................１２五、使用注意事项................................................................................................................................１２六、质量保证........................................................................................................................................１２七、常见故障及解决方法....................................................................................................................１３首先，感谢您选用DTD433工业级无线数传模组，我公司将一如既往地为您提供优质的产品和服务！敬告用户，请您在使用前，仔细阅读本手册！本手册适用于DTD433工业级无线数传模组，阅读时请您留意各型号的备注。

DZT853NPN SURFACE MOUNT TRANSISTORFeatures• Epitaxial Planar Die Construction• Complementary PNP Type Available (DZT953)• Ideally Suited for Automated Assembly Processes• Ideal for Medium Power Switching or Amplification Applications• Lead Free By Design/RoHS Compliant (Note 1)• "Green" Device (Note 2)Mechanical Data• Case: SOT-223• Case Material: Molded Plastic, "Green" Molding Compound.UL Flammability Classification Rating 94V-0• Moisture Sensitivity: Level 1 per J-STD-020C• Terminals: Finish — Matte Tin annealed over Copper Leadframe (Lead Free Plating). Solderable per MIL-STD-202, Method 208 • Marking Information: See Page 3• Ordering Information: See Page 3• Weight: 0.115 grams (approximate)SOT-223COLLECTORBASEEMITTER TOP VIEWSchematic and Pin ConfigurationMaximum Ratings @T A = 25°C unless otherwise specifiedCharacteristic Symbol Value UnitCollector-Base Voltage V CBO200 VCollector-Emitter Voltage V CEO100 VEmitter-Base Voltage V EBO 6 VContinuous Collector Current I C 6 APower Dissipation P tot 1 (Note 3)3 (Note 4)WOperating and Storage Temperature Range T j, T STG-55 to +150 °C Notes: 1. No purposefully added lead.2. Diodes Inc.'s "Green" policy can be found on our website at /products/lead_free/index.php.3. Device mounted on FR-4 PCB, pad layout as shown on page4.4. The power which can be dissipated, assuming the device is mounted in a typical manner on a PCB with copper equal to 4 square inch minimum.Electrical Characteristics @T A = 25°C unless otherwise specifiedCharacteristicSymbol Min Typ Max Unit Test ConditionOFF CHARACTERISTICS Collector-Base Breakdown Voltage V (BR)CBO 200 ⎯ ⎯ V I C = 100μA, I E = 0 Collector-Emitter Breakdown Voltage V (BR)CEO 100 ⎯ ⎯ V I C = 10mA*, I B = 0Emitter-Base Breakdown Voltage V (BR)EBO 6 ⎯ V I E = 100μA, I C = 0Collector Cutoff Current I CBO ⎯ ⎯ 10 1 nA μA V CB = 150V, I E = 0V CB = 150V, I E = 0, T A = 100°C Emitter Cutoff Current I EBO⎯⎯10nAV EB = 6V, I C = 0ON CHARACTERISTICSCollector-Emitter Saturation Voltage V CE(SAT)⎯ ⎯ ⎯ ⎯ ⎯ ⎯ 50 150 340mVI C = 0.1A, I B = 5mA* I C = 2A, I B = 100mA* I C = 5A, I B = 500mA*Base-Emitter Saturation Voltage V BE(SAT)⎯ ⎯ 1250 mV I C = 5A, I B = 500mA* Base-Emitter Turn-On Voltage V BE(ON)⎯ ⎯ 1100 mV I CE = 5A, V CE = 2V* DC Current Gainh FE100 100 50 20⎯ ⎯ ⎯ ⎯⎯ 300 ⎯ ⎯⎯I C = 10mA, V CE = 2V* I C = 2A, V CE = 2V* I C = 4A, V CE = 2V* I C = 10A, V CE = 2V*SMALL SIGNAL CHARACTERISTICS Current Gain-Bandwidth Product f T ⎯ 130 ⎯ MHz I C = 100mA, V CE = 10V, f = 50MHzOutput CapacitanceC obo⎯35⎯pFV CB = 10V, f = 1MHzSWITCHING CHARACTERISTICS Switching Times t on t off⎯50 1650⎯ns nsI C = 1A, V CC = 10V I B1 = I B2 = 100mA*Measured under pulsed conditions. Pulse width = 300μs. Duty cycle ≤2%Typical Characteristics @T amb = 25°C unless otherwise specifiedFig. 1 Power Dissipation vs. Ambient Temperature (Note 3)Fig. 2 Collector Current vs. Collector Emitter-VoltageNotes:3. Device mounted on FR-4 PCB, pad layout as shown on page4.Fig. 3 Typical DC Current Gain vs. Collector Current Fig. 4 Collector-Emitter Saturation Voltage vs. Collector CurrentFig. 5 Base-Emitter Turn-On Voltage vs. Collector CurrentFig. 6 Base-Emitter Saturation Voltage vs. Collector CurrentOrdering Information (Note 5)Device Packaging ShippingDZT853-13SOT-223 2500/Tape & ReelNotes:5. Packaging Details as shown on page 4, or go to our website at /ap2007.pdf.Marking InformationDZT853 = Product Type Marking Code YM = Date Code Marking Y = Year ex: T = 2006M = Month ex: 9 = SeptemberDate Code KeyYear2006 2007 2008 2009 2010 2011 2012CodeT U V W X Y ZMonth Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Code123456789ONDPackage Outline DimensionsSOT-223Dim MinMax Typ A 1.55 1.651.60 A1 0.010 0.150.05 b1 2.90 3.10 3.00b2 0.60 0.80 0.70 C 0.20 0.30 0.25 D 6.45 6.55 6.50 E3.453.553.50E1 6.90 7.10 7.00 e — — 4.60 e1 — — 2.30 L0.851.050.95Q 0.84 0.94 0.89 All Dimensions in mmSuggested Pad Layout: (Based on IPC-SM-782)(Unit:mm)IMPORTANT NOTICEDiodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to any product herein. Diodes Incorporated does not assume any liability arising out of the application or use of any product described herein; neither does it convey any license under its patent rights, nor the rights of others. The user of products in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on our website, harmless against all damages.LIFE SUPPORTDiodes Incorporated products are not authorized for use as critical components in life support devices or systems without the expressed written approval of the President of Diodes Incorporated.分销商库存信息: DIODESDZT853-13。

MJE13001是小功率高压高速开关三极管，典型应用：荧光灯电子镇流器。

它采用TO-92封装，管脚排列如图：MJE13001主要参数：集电极-基极最高耐压VCBO=500V集电极-发射极最高耐压VCEO=400V发射极-基极最高耐压VEBO=9V集电极电流IC=0.3A耗散功率PC=7W结温Tj=150℃贮藏温度TSTG=-50~150℃直流放大系数HFE=8~403DD13001是硅NPN型小功率开关三极管，主要用于节能灯电子镇流器、手机充电器等开关电源电路。

3DD13001具有击穿电压高、反向漏电流小、开关速度快、饱和压降低、高温性能好等特点。

采用TO-251封装的3DD13001管脚排列如图：１脚：基极；２脚：集电极；３脚：发射极3DD13001主要参数：集电极最大耗散功率PCM=1.2W (Tamb=25℃)集电极最大允许电流ICM=0.2A集电极-基极反向击穿电压BVCBO=600V集电极-发射极反向击穿电压BVCEO=400V发射极-基极反向击穿电压BVEBO=7V结温Tj=150℃贮藏温度TSTG=-55~150℃直流放大系数=8~40MJE13002是高压高速开关三极管，国产同类型号为3DD13002。

它主要用于电子节能灯、日光灯电子镇流器，以及其它开关电路中。

MJE13002(3DD13002)采用TO-126封装的外形尺寸和管脚排列如图：MJE13002(3DD13002)主要参数VCBO=600VVCEO=400VVEBO=7VIC=1APC=1.2WTj=150℃TSTG=-55~150℃ICBO=100μAIEBO=100μAHFE=10~40VCE(sat) =0.5VVBE(sat) =1.0VfT=4MHzTf=0.6μsMJE13003是主要用于节能灯及荧光灯电子镇流器的高反压大功率开关三极管，硅NPN型，采用TO-126封装，它的外形和管脚排列如下：MJE13003主要参数集电极-基极电压VCBO 700 V集电极-发射极电压VCEO 400 V发射极-基极电压VEBO 9V集电极电流IC 2.0 A集电极耗散功率PC 40 W最高工作温度Tj 150 °C贮存温度Tstg -65-150 °C集电极-基极截止电流ICBO (VCB=700V) 100 μA集电极-发射极截止电流ICEO (VCE=400V,IB=0) 250 μA集电极-发射极电压VCEO (IC=10mA,IB=0) 400 V发射极-基极电压VEBO (IE=1mA,IC=0) 9 V直流电流放大倍数5~403DD13005是高反压大功率开关三极管，硅材料NPN型，平面扩散工艺制造，开关速度快，耐压高。