GP1FM313TZ0F, 规格书,Datasheet 资料

GP1S196HCZ0F GP1S196HCZSF Gap : 1.1mm, Slit : 0.3mm Phototransistor Output, Compact Transmissive Photointerrupter■DescriptionGP1S196HCZ0F is a compact-package, photo-tran-sistor output, transmissive photointerrupter, with oppos-ing emitter and detector in a molding that provides non-contact sensing. The compact package series is a result of unique technology combing transfer and injection molding.This device is half the size of the rest of the parts in this family.■Features1. Transmissive with phototransistor output2. Highlights :• Compact Size• Low Profi le• Narrow Gap• Through-hole : GP1S196HCZ0F• SMT : GP1S196HCZSF3. Key Parameters :• Gap Width : 1.1mm• Slit Width (detector side): 0.3mm• Package : 3.1×2×2.7mm4. Lead free and RoHS directive compliant■Agency approvals/Compliance1. Compliant with RoHS directive■Applications1. General purpose detection of object presence or mo-tion.2. Example : printer, lens control for cameraNotice The content of data sheet is subject to change without prior notice.In the absence of confi rmation by device specifi cation sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP■Internal Connection Diagram■Outline Dimensions(Unit : mm)Plating material : SnCu (Cu : TYP . 2%)Top viewAnode Collector Emitter CathodeCountry of originJapan■Absolute Maximum Ratings■Electro-optical Characteristics (T a=25˚C )Parameter Symbol Rating UnitInput Forward current I F30mA Reverse voltage V R6V Power dissipation P75mWOutput Collector-emitter voltage V CEO35V Emitter-collector voltage V ECO6V Collector current I C20mA Collector power dissipation P C75mWTotal power dissipation P tot100mWOperating temperature T opr−25 to +85˚CStorage temperature T stg−40 to +100˚C∗1Soldering temperature Tsol260˚C∗1 For 3s or less(T a=25˚C ) Parameter Symbol Condition MIN.TYP.MAX.UnitInput Forward voltage V F I F=20mA− 1.2 1.4V Reverse current I R V R=3V−−10μAOutput Collector dark current I CEO V CE=20V−−100nATransfer charac-teristics Collector current I C V CE=5V, I F=5mA100−400μA Collector-emitter saturation voltage V CE(sat)I F=10mA, I C=40μA−−0.4VResponse timeRise time t rV CE=5V, I C=100μA, R L=1kΩ−50150μs Fall time t f−50150(GP1S196HCZ0F)Fig.5 Collector Current vs. Collector- emitter VoltageFig.6 Relative Collector Current vs.Ambient TemperatureFig.3 Forward Current vs. ForwardVoltageFig.4 Collector Current vs. Forward Current101001F o r w a r d c u r r e n t I F (m A )Forward voltage V F (V)Forward current I F (mA)11.10.90.80.70.60.50.40.30.20.1C o l l e c t o r c u r r e n t I C (m A )21.61.20.80.4C o l l e c t o r c u r r e n t I C (m A )Collector-emitter voltage V CE (V)R e l a t i v e c o l l e c to r c u r r e n t (%)Ambient temperature T a (C)0130120110100908070605040302010Fig.1 Forward Current vs. Ambient TemperatureFig.2 Power Dissipation vs. Ambient Temperature0605040302010 25025*********F o r w a r d c u r r e n t I F (m A )Ambient temperature T a (˚C) 060408010012020P o w e r d i s s i p a t i o n P , P c , P t o t (m W )Ambient temperature T a (˚C)7515Fig.7 Collector-emitter Saturation Votage vs. Ambient TemperatureFig.8 Collector Dark Current vs. Ambient TemperatureFig.9 Response Time vs. Load ResistanceFig.10 Test Circuit for Response TimeFig.11 Relative Collector Current vs. Shield Distance (1)Fig.12 Relative Collector Current vs. Shield Distance (1)C 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 )Ambient temperature T a (˚C)0.20.180.160.140.120.10.080.060.040.11 000101100R e s p o n s e t i m e (μs )Load resistance R L (k Ω)10 1010 910 710 610 8C o l l e c t o r d a r k c u r r e n t I C E O (A )Ambient temperature T a (˚C)R e l a t i v e c o l l e c t o r c u r r e n t (%)100203040506090100708000.511.52Shield moving distance L (mm)R e l a t i v e co l l e c t o r c u r r e n t (%)100203040506090100708000.511.52Shield moving distance L (mm)Remarks : Please be aware that all data in the graph are just for reference and not for guarantee.■Design Considerations ●Design guide1) Prevention of detection errorTo prevent photointerrupter from faulty operation caused by external light, do not set the detecting face to the external light.2) Position of opaque boardOpaque board shall be installed at place 1.4mm or more from the top of elements.(Example)This product is not designed against irradiation and incorporates non-coherent IRED.●DegradationIn general, the emission of the IRED used in photointerrupter will degrade over time.In the case of long term operation, please take the general IRED degradation (50% degradation over 5 years) into the design consideration.●Recommended Foot Print (Only for GP1S196HCZSF)1.4mm or more●PartsThis product is assembled using the below parts.• Photodetector (qty. : 1)Category Material Maximum Sensitivitywavelength (nm)Sensitivitywavelength (nm)Response time (μs)Phototransistor Silicon (Si)930700 to 1 20020• Photo emitter (qty. : 1)Category Material Maximum light emittingwavelength (nm)I/O Frequency (MHz)Infrared emitting diode(non-coherent)Gallium arsenide (GaAs)9500.3 • MaterialCase Lead frame Lead frame platingBlack polyphernylenesulfi de resin (UL94 V-0)42Alloy SnCu plating■Manufacturing Guidelines●Storage and management after open (Only for GP1S196HCZSF)Storage conditionStorage temp.: 5 to 30˚C, Storage humidity : 70%RH or less at regular packaging.Treatment after opening the moisture-proof packageAfter opening, you should mount the products while keeping them on the condition of 5 to 25˚C and 70%RH or less in humidity within 4 days.After opening the bag once even if the prolonged storage is necessary, you should mount the products within two weeks.And when you store the rest of products you should put into a DRY BOX. Otherwise after the rest of products and silicagel are sealed up again, you should keep them under the condition of 5 to 30˚C and 70%RH or less in humidity.Baking before mountingWhen the above-mentioned storage method could not be executed, please process the baking treatment before mounting the products.However the baking treatment is permitted within one time.Recommended condition : 125˚C, 16 to 24 hours∗Do not process the baking treatment with the product wrapped. When the baking treatment processing, you should move the products to a metallic tray or fi x temporarily the products to substrate.●Soldering MethodRefl ow Soldering (Only for GP1S196HCZSF) :Refl ow soldering should follow the temperature profi le shown below.Soldering should not exceed the curve of temperature profi le and time.Please solder within one time.MAX200˚CMAX160˚C25˚CFlow Soldering:Soldering should be completed below 260˚C and within 3 s.Please solder within one time.Soldering area is 0.3mm or more away from the bottom of housing.Please take care not to let any external force exert on lead pins.Please don't do soldering with preheating, and please don't do soldering by refl ow.Other noticePlease test the soldering method in actual condition and make sure the soldering works fine, since the impact on the junction between the device and PCB varies depending on the cooling and soldering conditions.●Cleaning instructionsSolvent cleaning :Solvent temperature should be 45˚C or below. Immersion time should be 3 minutes or less.Ultrasonic cleaning :Do not execute ultrasonic cleaning.Recommended solvent materials :Ethyl alcohol, Methyl alcohol and Isopropyl alcohol.●Presence of ODCThis product shall not contain the following materials.And they are not used in the production process for this product.Regulation substances : CFCs, Halon, Carbon tetrachloride, 1.1.1-Trichloroethane (Methylchloroform)Specifi c brominated fl ame retardants such as the PBBOs and PBBs are not used in this product at all.This product shall not contain the following materials banned in the RoHS Directive (2002/95/EC).•Lead, Mercury, Cadmium, Hexavalent chromium, Polybrominated biphenyls (PBB), Polybrominateddiphenyl ethers (PBDE).■Package specifi cation●Sleeve package1. Through-hole (GP1S196HCZ0F)Package materialsSleeve : PolycarbonateStopper : Styrene-ElastomerPackage methodMAX. 200 pcs. of products shall be packaged in a sleeve. Both ends shall be closed by tabbed and tabless stoppers.MAX. 50 sleeves in one case.2. SMT Gullwing (GP1S196HCZSF)Package materialsSleeve : PolycarbonateStopper : Styrene-ElastomerAluminium laminated Bag : Nylon, Polyphernylene, AluminiumPackage methodMAX. 200 pcs. of products shall be packaged in a sleeve. Both ends shall be closed by tabbed and tabless stoppers.MAX. 50 sleeves with silicagel are enclosed in aluminium laminated bag. After sealing up the bag, it encased in one case.分销商库存信息:SHARP-MICROELECTRONICSGP1S196HCZSF GP1S196HCZ0F。

GK-313SAMPO行動電話機使用手冊目錄1 前言 (7)1.1 簡介 (7)1.2 安全須知 (8)1.3 安全警告和注意事項 (9)1.3.1通用注意事項 (9)1.3.2使用手機的注意事項 (9)1.3.3使用電池的注意事項 (12)1.3.4使用充電器的注意事項 (13)1.3.5清潔和維護 (14)1.3.6一般注意事項 (15)2使用前 (16)2.1 名稱和說明 (16)2.1.1規格 (16)2.1.2按鍵說明 (17)2.1.3側鍵功能介紹 (19)2.2 電池 (19)2.2.1電池的拆卸和安裝 (19)2.2.2電池的充電 (20)2.3 連接網路 (22)12.3.3開關話機 (23)2.3.4 SIM卡的去鎖 (23)2.3.5話機解鎖 (24)2.3.6連接到網路 (25)3基本操作 (26)3.1 撥打電話 (26)3.1.1撥打國內電話 (26)3.1.2撥打固定電話分機 (26)3.1.3撥打國際電話 (27)3.1.4撥打列表中電話 (28)3.2 緊急呼叫 (28)3.3 接聽電話 (29)3.4 通話記錄 (29)3.5 呼叫菜單 (29)4功能表 (32)4.1 功能表的使用 (32)4.1.1搜索選擇功能 (32)4.1.2快捷選擇功能 (32)4.1.3導航鍵功能 (33)24.3 電話簿 (37)4.4 訊息 (39)4.4.1新訊息 (39)4.4.2 寫訊息 (39)4.4.3 查看已接收訊息和已保存訊息 (41)4.4.4常用範本的操作 (43)4.4.5 訊息設定 (43)4.4.6 多媒體訊息 (44)4.4.7 聊天 (46)4.4.8 語音郵件 (47)4.4.9 廣播訊息 (47)4.5 通話記錄 (47)4.5.1 查看通話列表 (47)4.5.2輔助選單 (48)4.6 設定 (50)4.6.1 話機設定 (50)4.6.2 通話設定 (52)4.6.3 網路設定 (53)4.6.4 安全設定 (52)4.6.5 恢復原廠設定 (55)4.6.6音效 (55)34.7.2相簿 (56)4.7.3動畫錄影器 (57)4.7.4動畫播放器 (57)4.7.5照片藝術家 (57)4.7.6音樂播放器 (58)4.7.7錄音 (59)4.7.8鈴聲編輯 (59)4.8 檔案管理 (60)4.9 娛樂和遊戲 (60)4.9.1遊戲 (60)4.9.2碼錶 (61)4.9.4遊戲設定 (61)4.10 情境模式 (61)4.10.1一般模式 (61)4.10.2會議模式 (62)4.10.3戶外模式 (62)4.10.4室內模式 (63)4.10.5耳機模式 (63)4.11 行動祕書 (63)4.11.1 日曆 (63)4.11.2 待辦事項 (64)44.12 網路服務 (64)4.12.1 STK (64)4.12.2 WAP (65)4.12.3 帳號資料 (66)4.13 附加功能 (67)4.13.1 計算機 (67)4.13.2 單位換算 (67)4.13.3 貨幣換算 (68)4.13.4 健康管理 (68)4.14 快捷功能 (69)4.15 T-FLASH卡的使用 (69)4.15.1 T-flash卡的拆裝 (69)4.15.2 T-flash卡的使用 (70)5輸入法 (71)5.1 概述 (71)5.2 鍵盤定義 (71)5.3 輸入法說明 (72)5.3.1拼音輸入法 (72)5.3.2筆劃輸入法 (74)5.3.3 智慧英文輸入法 (76)56附錄一 (79)6.1 常見故障診斷 (79)7附錄二 (80)7.1 縮略語及其解釋 (80)8附錄三 (81)8.1 手機配件使用注意事項 (81)8.2 電池 (81)8.2.1充電器 (82)8.2.2USB (82)8.3 保固條款 (82)8.2 維修中心 (85)61 前言1.1 簡介感謝您選擇SAMPO GK-313系列行動電話。

Product datasheetCharacteristicsLC1F185U7TeSys F contactor - 3P (3 NO) - AC-3 - <= 440 V 185 A - coil 240 V ACPrice* : 564.59 GBPMainRange TeSys Product nameTeSys F Product or component type Contactor Device short name LC1F Contactor application Resistive load Motor control Utilisation categoryAC-4AC-1AC-3Poles description3P Power pole contact composition 3 NO[Ue] rated operational voltage <= 460 V DC<= 690 V AC 50/60 Hz[Ie] rated operational current 275 A (at <40 °C) at <= 440 V AC-1185 A (at <55 °C) at <= 440 V AC-3Motor power kW90 kW at 380...400 V AC 50/60 Hz (AC-3)100 kW at 415 V AC 50/60 Hz (AC-3)100 kW at 440 V AC 50/60 Hz (AC-3)110 kW at 500 V AC 50/60 Hz (AC-3)110 kW at 660...690 V AC 50/60 Hz (AC-3)55 kW at 220...230 V AC 50/60 Hz (AC-3)33 kW at 400 V AC 50/60 Hz (AC-4)[Uc] control circuit voltage240 V AC 40...400 HzComplementary[Uimp] rated impulse withstand voltage 8 kV Overvoltage categoryIII[Ith] conventional free air thermal current275 A (at 40 °C)Rated breaking capacity1480 A conforming to IEC 60947-4-1i s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s[Icw] rated short-time withstand current1500 A 40 °C - 10 s920 A 40 °C - 30 s740 A 40 °C - 1 min500 A 40 °C - 3 min400 A 40 °C - 10 minAssociated fuse rating200 A aM at <= 440 V315 A gG at <= 440 VAverage impedance0.33 mOhm - Ith 275 A 50 Hz[Ui] rated insulation voltage1000 V conforming to IEC 60947-4-11500 V conforming to VDE 0110 group CPower dissipation per pole12 W AC-325 W AC-1Mounting support PlateStandards IEC 60947-1JIS C8201-4-1EN 60947-1IEC 60947-4-1EN 60947-4-1Product certifications LROS (Lloyds register of shipping)ULCSABVCBDNVRMRoSRINAABSConnections - terminals Control circuit: screw clamp terminals 1 cable(s) 1…4 mm²flexible without cable endControl circuit: screw clamp terminals 2 cable(s) 1…4 mm²flexible without cable endControl circuit: screw clamp terminals 1 cable(s) 1…4 mm²flexible with cable endControl circuit: screw clamp terminals 2 cable(s) 1…2.5 mm²flexible with cable endControl circuit: screw clamp terminals 1 cable(s) 1…4 mm²solid without cable endControl circuit: screw clamp terminals 2 cable(s) 1…4 mm²solid without cable endPower circuit: bar 2 cable(s) - busbar cross section: 25 x 3 mmPower circuit: lugs-ring terminals 1 cable(s) 150 mm²Power circuit: connector 1 cable(s) 150 mm²Power circuit: bolted connectionTightening torque Control circuit: 1.2 N.mPower circuit: 18 N.mControl circuit voltage limits Operational: 0.85...1.1 Uc 40...400 Hz (at 55 °C)Drop-out: 0.35...0.55 Uc 40...400 Hz (at 55 °C)Inrush power in VA1070 VA 40...400 Hz cos phi 0.9 (at 20 °C)Hold-in power consumption in VA9.9 VA 40...400 Hz cos phi 0.9 (at 20 °C)Heat dissipation8…9.8 WOperating time35 ms closing (at Uc)130 ms opening (at Uc)Mechanical durability10 McyclesMaximum operating rate2400 cyc/h 55 °CCompatibility code LC1FMotor power range30…50 kW at 200…240 V 3 phases55…100 kW at 200…240 V 3 phases55…100 kW at 380…440 V 3 phases55…100 kW at 480…500 V 3 phases110…220 kW at 480…500 V 3 phasesMotor starter type Direct on-line contactorContactor coil voltage240 V AC standardEnvironmentIP degree of protection IP2x front face with shrouds conforming to IEC 60529IP2x front face with shrouds conforming to VDE 0106Protective treatment THAmbient air temperature for operation-5…55 °CAmbient air temperature for storage-60…80 °CPermissible ambient air temperature-40…70 °Caround the deviceOperating altitude3000 m withoutHeight174 mmWidth168.5 mmDepth181 mmProduct weight 4.65 kgOffer SustainabilitySustainable offer status Green Premium productREACh Regulation REACh DeclarationEU RoHS Directive CompliantEU RoHS DeclarationMercury free YesRoHS exemption information YesChina RoHS Regulation China RoHS declarationProduct out of China RoHS scope. Substance declaration for your informationEnvironmental Disclosure Product Environmental ProfileCircularity Profile End of Life InformationWEEE The product must be disposed on European Union markets following specific waste collection andnever end up in rubbish binsContractual warrantyWarranty18 monthsProduct datasheetLC1F185U7Dimensions DrawingsDimensions and DrawingsLC1 F115 to F330(1)Power terminal protection shroudX1 (mm) = Minimum electrical clearance according to operating voltage and breaking capacity.TeSys F reversing contactors and changeover contactor pairs, vertically mountedNOTE: For customer assembly, with mechanical interlock (MI) LA9 F, fixing recommended on AM1 EC uprights (please consult your Regional Sales Office). 2 x LC1 identical or different ratings (LC1 F115 to F630 and F800).Assembly A(1)Mechanical interlock shaft.(2)For assembly of contactors of different ratings only.(3) 4 x Ø6.5 for LC1 F115 to F225.(7)Assembly B(4) 4 x Ø6.5 for LC1 F265.(5)Mechanical interlock guide bracket.(7)Assembly C(6) 4 x Ø8.5 for LC1 F400, F500 or 4 x Ø10.5 for LC1 F630 and F800.(7)Only 3P for F800.(8)In this case, G4 is greater than G5.Assembly C(7)Product datasheetLC1F185U7 Connections and SchemaConnections and Schema2, 3, and 4-pole ContactorsLC1 F115 to F630, F1250(coil LX1 F )LC1 F115 to F630 , F1250 (coil LX4 F )LC1 F115 to F265 (coil LX9 F )LC1 F800 (coil LX8 F / )。

Catalog Number 700-1563-00Physical SpecificationsEnvironmental Specifications*All dimensions are millimeters.Electrical Specifications†Power drawn varies based on the vehicles being used and the maximum acceleration or velocity of the vehicles.•QuickStick High Thrust systems consist of modules that include motors mounted to user-designed support structures, magnet arrays mounted to user-designed vehicles, motor controllers, system controllers, and power supplies.•External controller for one QuickStick ® HT 1m motor.•Separate LVDC power source allows motor configuration without enabling propulsion power.•IP20 (IEC 60529) ingress protection rating.•CE Certified, UL Recognized.•19” rack mounting kit available.Dimensions *:253.5 W x 330.0 L x 87.3 H Ambient Temperature:0°C to 50°C [32°F to 122°F]Weight:5.89kg [13lb]Relative Humidity:85% max (relative, non-condensing)Input Power Rating †:HVDC: 270VDC min - 400VDC, 5A typ, 15A max (2 sec max) (Powerfast, 3-Pin, Male)LVDC: 24 VDC ±5%, 0.6 A (M12 Eurofast, FSFD 4.4, Male)Output Power (Stator Drive):400V max, 3phase, 10A RMS cont., 15A RMS max (16S-1S, 7-Pin, Female)Network:Standard 10/100/1000 BaseTx, full duplex, Ethernet (M12 Eurofast, FKFDD, Female)Stator Sense:Magnet array position sense (M12 Eurofast, 6-Pin, Female)Up/Down Stream:RS-422 for Node Controller communication (M8, Nano-Mizer, 4-Pin, Male)3.816.56.6HV DCStator Drive NetworkStator SenseQuickStick HT Motor Controller QSMCRockwell Automation SupportUse the following resources to access support information.Documentation FeedbackY our comments will help us serve your documentation needs better. If you have any suggestions on how to improve this document, complete the How Are W e Doing? form at /idc/groups/literature/documents/du/ra-du002_-en-e.pdf .Technical Support CenterKnowledgebase Articles, How-to Videos, FAQs, Chat, User Forums, and Product Notification Updates.https:///Local Technical Support Phone Numbers Locate the phone number for your country./global/support/get-support-now.page Direct Dial Codes Find the Direct Dial Code for your product. Use the code to route your call directly to a technical support engineer./global/support/direct-dial.page Literature LibraryInstallation Instructions, Manuals, Brochures, and Technical Data./global/literature-library/overview.page Product Compatibility and Download Center (PCDC)Get help determining how products interact, check features and capabilities, and find associated firmware./global/support/pcdc.pageRockwell Otomasyon Ticaret A.Ş., Kar Plaza İş Merkezi E Blok Kat:6 34752 İçerenköy, İstanbul, T el: +90 (216) 5698400Rockwell Automation maintains current product environmental information is on its website at /rockwellautomation/about-us/sustainability-ethics/product-environmental-compliance.page .Product certificates are located in the Rockwell Automation Literature Library: /global/literature-library/overview.page Allen-Bradley, Rockwell Software, and Rockwell Automation are trademarks of Rockwell Automation, Inc.Trademarks not belonging to Rockwell Automation are property of their respective companies.Copyright © 2015–2018 MagneMotion, A Rockwell Automation Company. All Rights Reserved.139 Barnum Road, Devens, MA 01434, USA +1 978-757-9100Publication MMI-TD026D-EN-P - January 2018DIR 990000681Supersedes 990000681 Rev. C。

GP1A05/GP1A22LC/GP1A23LC/GP1A25LCOPIC Photointerrupter with Connectors Featuress Applicationss Outline Dimensions1. Uses 3-pin connector terminal2. High sensing accuracy (Slit width :0.5mm )3. Wide gap between light emitter and detec-*“OPIC ”(Optical IC ) is a trademark of SHARP and signal-processing circuit integrated onto a single chip.tor (5mm )Corporation.An OPIC consists of a light-detecting element gg Recommended connectors on the inserted side are show on the following 3rd page.(Unit :mm )1. Copiers, Printers2. Facsimiles-60504030201000.60.50.100.20.30.4Shield distance d (mm )-Detecting position d =3.5±0.3mmOutput LowOutput HighShield distance h (mm )Fig. 2 Low Level Output Voltage vs. Low Level Output CurrentFig. 1 Low Level Output Current vs.Ambient TemperatureL o w l e v l e o u t p u t v o l t a g e V O L (V )(2)(GP1A22LC /GP1A23LC /GP1A25LC :d =3.5±0.5mm )L o w l e v e l o u t p u t c u r r e n t I O L (m A )Detecting position h=3.0+2.0-1.5mms Precautions for Uses Recommended Connectors on the Inserted Side<<GP1A05>>q JAPAN AMP made El series connectorsHousing colorBlack Blue Green RedHousing Model No.172142-32-172142-34-172142-36-172142-38-172142-3Special terminalModel. No.(Material :Copper phosphide )AWG size Product shape Model No.AWG 26 to 22Bulk 170369-1Chain 170354-1AWG 30 to 26Bulk 170370-1Chain 170355-1(standard type )q JAPAN AMP made El series connectors (low profile type )q JAPAN AMP made El series connectors (amp mass termination )Housing colorBlack Blue Green RedHousing Model No.2-171822-34-171822-36-171822-38-171822-3Special terminalModel. No.AWG size ProductshapeMaterial Model No.AWG26 to 20Bulk Brass 170204-1Copperphosphide 170204-2Chain Brass 170262-1Copperphosphide170262-2AWG30 to 26Bulk Brass 170205-1Copperphosphide 170205-2Chain Brass 170263-1Copperphosphide170263-2Housing-terminal united type connector AWG28(Green )AWG26(Naturalcolor )AWG24(Black )AWG22(Red )172054-3172053-3172052-3172051-3* Terminal Material :Copper phosphide<<GP1A22LC/GP1A23LC >>een V CC and GND near the device in order to stabilize power supply line.However, do not perform the above cleaning using a soft cloth with cleaning solvent in the marking portion.In this case, use only the following type of cleaning solvent used for wiping off: Ethyl alcohol, Methyl alcohol, Isopropyl alcohol,When the cleaning solvents except for specified materials are used, please consult us.Housing Model No.H3P-SHF-AA S3P-SHF-1Special terminal Model. No.AWG sizeMaterialModel No.AWG sizeMaterialModel No.AWG26 to 22BrassSHF-001T-0.8SSAWG27 to 22BrassSHF-001T-0.8PCopperphosphide SHF-001T-0.8BS Copperphosphide-AWG30 to 26BrassSHF-002T-0.8SS AWG30 to 28BrassSHF-002T-0.8PCopperphosphide SHF-001T-0.8BS Copperphosphide-171822-3NaturalcolorNaturalcolorcase;therefore, dip cleaning or ultrasonic cleaning is prohibited.q JAPAN SOLDERLESS TERMINAL MSG. CO., LTD. made (Natural color •bulk )(1) It is recommended that a by-pass capacitor of more than 0.01µF be added betw (2) In this product, the PWB is fixed with a rear cover, and cleaning solvent may remain inside the (3) Remove dust or stains, using an air blower or a soft cloth moistened in cleaning solvent. (4) As for other general cautions, refer to the chapter “Precautions for Use .”Recommended connectors on the inserted side for GP1A05, G P1A22LC, and GP1A23LC a re shown below.Application CircuitsNOTICEq The circuit application examples in this publication are provided to explain representative applications of SHARP devices and are not intended to guarantee any circuit design or license any intellectual property rights. SHARP takes no responsibility for any problems related to any intellectual property right of a third party resulting from the use of SHARP's devices.q Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.SHARP reserves the right to make changes in the specifications, characteristics, data, materials, structure, and other contents described herein at any time without notice in order to improve design or reliability. Manufacturing locations are also subject to change without notice.q Observe the following points when using any devices in this publication. SHARP takes no responsibility for damage caused by improper use of the devices which does not meet the conditions and absolute maximum ratings to be used specified in the relevant specification sheet nor meet the following conditions:(i) The devices in this publication are designed for use in general electronic equipment designs such as:--- Personal computers--- Office automation equipment--- Telecommunication equipment [terminal]--- Test and measurement equipment--- Industrial control--- Audio visual equipment--- Consumer electronics(ii)Measures such as fail-safe function and redundant design should be taken to ensure reliability and safety when SHARP devices are used for or in connection with equipment that requires higher reliability such as:--- Transportation control and safety equipment (i.e., aircraft, trains, automobiles, etc.)--- Traffic signals--- Gas leakage sensor breakers--- Alarm equipment--- Various safety devices, etc.(iii)SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as:--- Space applications--- Telecommunication equipment [trunk lines]--- Nuclear power control equipment--- Medical and other life support equipment (e.g., scuba).q Contact a SHARP representative in advance when intending to use SHARP devices for any "specific"applications other than those recommended by SHARP or when it is unclear which category mentioned above controls the intended use.q If the SHARP devices listed in this publication fall within the scope of strategic products described in the Foreign Exchange and Foreign Trade Control Law of Japan, it is necessary to obtain approval to export such SHARP devices.q This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved. Under the copyright laws, no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is also required before any use of this publication may be made by a third party.q Contact and consult with a SHARP representative if there are any questions about the contents of this publication.分销商库存信息:SHARP-MICROELECTRONICSGP1A05GP1A23LC GP1A05J0000F。

10-2014, Rev. © 2014 Tyco Electronics Corporation,a TE Connectivity Ltd. companyDatasheets and product specification according to IEC 61810-1 and to be used only together with the ‘Definitions’ section.Datasheets and product data is subject to the terms of the disclaimer and all chapters of the ‘Definitions’ section, available at /definitionsDatasheets, product data, ‘Definitions’ sec-tion, application notes and all specifications are subject to change.1Power PCB Relay RZH 105°C 16An 1 pole 16A, 1 form C (CO) or 1 form A (NO) contact n DC coil 400mWn 5kV/10mm coil-contact, reinforced insulation n Ambient temperature 105°C n Product in accordance to IEC 60335-1Typical applicationsOven control, cooking plate controlApprovalsVDE Cert. No. 40023970, cULus E214025, CQCTechnical data of approved types on requestContact DataContact arrangement 1 form C (CO) or 1 form A (NO)Rated voltage 250VAC Max. switching voltage 400VAC Rated current 16A 1) Limiting making current,form A contact, max. 4 s, duty factor 10 % 30A Breaking capacity max. 4000VA Contact material AgNi 90/10 or AgSnO 2Frequency of operation, with/without load 360/72000h -1Operate/release time max. 8/6ms Bounce time max., form A/form B 4/6ms Contact ratings Type Contact Load Cycles IEC 61810RZH3-1C4 A/C (NO/NC) 16 A, 250 VAC, resistive, 105°C 10x103RZH3-1A3 A (NO) 16 A, 250 VAC, resistive, 85°C 40x10³ RZH3-1A3 A (NO) 12 A, 250 VAC, resistive, 105°C 20x 10³ RZH . -1A4 A (NO) 10 A, 250 VAC, resistive, 105°C 150x103 RZHH-1A4 A (NO) 12 A, 250 VAC, resistive, 85°C 150x103 RZHH-1A4 A (NO) 18 A, 250 VAC, resistive, 85°C 30x103 RZHH-1A4 A (NO) 12 A, 250 VAC, resistive, 105°C 100x103 RZHH-1A4 A (NO) 10 A, 250 VAC, resistive, 105°C 300x103 RZHH-1A4 A (NO) 16 A, 250 VAC, resistive, 105°C 30x103 RZH . -1A4 A (NO) 16 A, 250 VAC, resistive, 85°C 50x103UL 508RZH3-1A4 A (NO) 10 A, 250 VAC, resistive, 105°C 150x103 RZH3-1C4 A/C (NO/NC) 16 A, 250 VAC, resistive, 105°C 10x103 RZHH-1A4 A (NO) 10 A, 250 VAC, resistive, 105°C 300x103 RZHH-1A4 A (NO) 12 A, 250 VAC, resistive, 105°C 150x103 RZHH-1A4 A (NO) 12 A, 250 VAC, resistive, 85°C 150x103 RZHH-1A4 A (NO) 16 A, 250 VAC, resistive, 105°C 30x103 RZHH-1A4 A (NO) 16 A, 250 VAC, resistive, 85°C50x103Contact Data (continued)Mechanical endurance>10x106 operations1) Continuous thermal load >10A at 105°C requires reduction of coil power to 49% of rated power after 100ms.Coil DataCoil voltage range 3 to 48VDC Operative range, IEC 61810 90...110% U RTDCoil insulation system according UL1446class FCoil versions, DC coil Coil Rated Operate Release Coil Rated coil code voltage voltage voltage resistance power VDC VDC VDC Ω±10% mW 1) D003 3 2.1 0.3 22 410 D005 5 3.5 0.5 60 420 D006 6 4.2 0.6 90 400 D009 9 6.3 0.9 200 400 D012 12 8.4 1.2 360 400 D024 24 16.8 2.4 1440 400 D048 48 33.6 4.8 5730 4001) Continuous thermal load > 10 A at 105°C requires reduction of coil power to 49% of rated power after 100 ms.All figures are given for coil without pre-energization, at ambient temperature +23°C.Other coil voltages on request.Insulation DataInitial dielectric strength between open contacts 1000V rms between contact and coil 5000V rms Clearance/creepagebetween contact and coil ≥10/10mmMaterial group of insulation parts IIIa Tracking index of relay basePTI250VF0305-AZ10-2014, Rev. 1014© 2014 Tyco Electronics Corporation,Datasheets and product specification Datasheets and product data is subject to the/definitionsDatasheets, product data, ‘Definitions’ sec-2Power PCB Relay RZH 105°C 16A (Continued)Other DataMaterial compliance: EU RoHS/ELV, China RoHS, REACH, Halogen contentrefer to the Product Compliance Support Center at/customersupport/rohssupportcenterResistance to heat and firestandard cover version according EN 60335-1, par.30Ambient temperature -40 to 105°CCategory of environmental protectionIEC 61810 RTII - flux proofVibration resistance (functional), 30 to 500Hzclosing form A contact >15gopening form A contact >20gopening form B contact >5gShock resistance (destructive) 100gTerminal type PCB-THTMounting distance ≥2mmWeight 10gResistance to soldering heat THTIEC 60068-2-20 270°C/10s2)Packaging/unit tube/20 pcs., box/500 pcs.2) The use of foaming flux is not permitted.PCB layout / terminal assignmentBottom view on solder pinsDimensionsS0163-BF16 A, pinning 5 m m16 A, pinning 5 m mS0163-BERecommended pcb hole for manual mounting:k1.3mmFor automated mounting please ask fordetailed drawing.Product code structure Typical product code RZ H 3 -1A 4 -D012TypeRZ Power PCB Relay RZVersionH Hot version 105°CVersion3 double pinning 5mm, 16A (1 form A or 1 form C)H double pinning 5mm, 16A High performance (1 form A)Contact Configuration1A 1 form A (1 NO) contact1C 1 form C (1 CO) contactContact material4 AgNi 90/103 AgSnO2Coil versionCoil code: please refer to coil versions tableProduct code Version Contacts Contact material Coil Part number RZH3-1C4-D012 16A, 105°C 1 form C (CO) AgNi 90/10 12VDC 2-1415899-5RZH3-1C4-D024 pinning 5mm 24VDC 2-1415899-6RZH3-1A4-D009 1 form A (NO) 9VDC 2-1415899-7RZH3-1A4-D012 12VDC2-1415899-8RZH3-1A4-D024 24VDC2-1415899-9 RZHH-1A4-D009 16A, 105°C 9VDC 6-1415899-2 RZHH-1A4-D012 pinning 5mm 12VDC 6-1415899-6 RZHH-1A4-D024 High performance 24VDC 6-1415899-7RZH3-1A3-D012 16A, 105°C, pinning 5mm 1 form A (NO) AgSnO2 12VDC 9-1415899-0。

Victor Technologies Limited • Tel: +44 1257 224824 Victor Technologies SRL • Tel: +39 02 36546801Victor Technologies GmbH • Tel : +49 (0) 2631 999960n 220 AC/DC n 301 AC/DC n 301 TSarcmasterIndustrial Portable Welding Power sources®®Victor Technologies Limited • Tel: +44 1257 224824 • Victor Technologies SRL • Tel: +39 02 36546801Victor Technologies GmbH • Tel : +49 (0) 2631 999960arcmaster Industrial Portable Welding Power sourcesThe new Tweco ArcMaster family of portable inverters has been completely overhauled and expanded. We have rebuilt our range to ensure products meet your requirements and expectations for outstanding performance, reliability and durability. ArcMaster Inverters offer high performance in a compact inverter-based design that easily meets the needs of the demanding welding professional.Our new models combine the finest hardware with the latest digital software control systems to provide outstanding quality even on the thinnest materials. Gas and current are precisely controlled, resulting in a very intense and focused arc that gives a slimmer seam and perfect optics, with minimal heat input.The new ArcMaster family is proof of our commitment to deliver quality equipment that does the job and exceeds expectations! A wealth of features and options make Tweco ArcMaster portable inverters the perfect choice for the serious welding professional.®The Tweco ArcMaster 220 AC/DC is a full digital control, AC/DC, Stick/ Lift TIG/ HF TIG inverter power supply with a high output and expanded input voltage capabilities for maximum user flexibility. Standard features include: High frequency start, lift TIG start, automatic downslope, pulse, repeat (latch) function, memory function and automatic gas management. This is the ultimate unit designed for precision TIG and Stick welding of all weldable materials. Superior, true square wave output combines with highly developed balance and cleaning features to deliver an unbeatable welding performance with extended tungsten life on aluminium and magnesium alloys without the need for continuous high frequency.M a c H I n E S P E c I F I c a T I O n SType: constant current AC/DC Stick & TIG WelderMaximum Output220AWelding amperage Range Stick: 10 - 170 A, TIG: 3 - 220ARated Output:Stick: 40% @ 170A, TIG: 40% @ 220APower Source Dimensions:(H x W x D)326 x 185 x 483 mmPower Source Weight13.4 kgWarranty 3 Yearsp r i m a r Y p o W e rPrimary Voltage230VHertz50/60 HzPhase 1 PHDesigned To IP23Sapprovals EN 60974-1Features & beneFits:• ac and Dc output for aluminum and non-ferrous alloys, stainless, mild steel & chrome molys.• Process Selection between TIG or Stick.• ac Frequency: Adjustable frequency of the AC square wave when welding on aluminum for optimized set up.• Wave Balance: Adjustable for optimized penetration or cleaning action when welding on aluminum.• Pulse: Changes the weld current from high to low at a specified frequency, reduces heat input on thin material.• Preflow & Postflow: Enables independent control over shielding gas before and after the weld.• Initial current / Upslope / Downslope & crater modes: Eliminates blow holes on starting and cracking at the end of the weld.• HF arc Start: Provides non-contact arc starting that eliminates tungsten or material contamination.• Lift TIG Start: Provides optimized TIG arc starting without the use of high frequency.• Fully Integrated VRDVoltage reduction device for MMA welding available. (Please contact Victor Technologies if this is required)The Tweco ArcMaster 301 AC/DC is a high output, full digital control, AC/DC, Stick/ Lift TIG/ HF TIG inverter power supply with a high outputand expanded input voltage capabilities for maximum user flexibility. Standard features include: High frequency start, lift TIG start, automatic downslope, pulse, repeat (latch) function, memory function and automatic gas management. This is the ultimate unit designed for precision TIG and Stick welding of all weldable materials. Superior, true square wave output combines with highly developed balance and cleaning features to deliver an unbeatable welding performance with extended tungsten life on aluminium and magnesium alloys without the need for continuous high frequency.Features & beneFits:• Digital Meters: Voltage and Amperage; Preview and hold capability for easy set up.• Trigger Hold: 4T (Latch) eliminates operator fatigue.• Gas Purge: Ensures gas lines are purged at start of weld.• Tiptronics Job Save: Save up to 100 parameter application settings for quality repeatable welds.• Tungsten Size: Select tungsten size for optimum starting performance.• Spot Mode: Enables timer functions for consistent spot welds.• Excellent Portability: Small size and weight ensures best workspace footprint and job site portability.• Overload Protection: Shuts down the power source to protect the internal electrical components from overheating.• Meets IP23S Standards: Suitable for outdoor use.• Fully Integrated VRDVoltage reduction device for MMA welding available. (Please contact Victor Technologies if this is required)M a c H I n E S P E c I F I c a T I O n SType: constant current AC/DC Stick & TIG WelderMaximum Output300AWelding amperage Range Stick: 10 - 200 A, TIG: 5 - 300ARated Output:Stick: 30% @ 200A, TIG: 30% @ 300APower Source Dimensions:(H x W x D)326 x 185 x 483 mmPower Source Weight16.3 kgWarranty 3 Yearsp r i m a r Y p o W e rPrimary Voltage400VHertz50/60 HzPhase 3 PHDesigned To IP23Sapprovals EN 60974-1®The Tweco ArcMaster 301 TS is a high output, full digital control, DC, Stick/ Lift TIG/ HF TIG inverter power supply with a high output and expanded input voltage capabilities for maximum user flexibility. Standard features include: High frequency start, lift TIG start, automatic downslope, pulse, repeat (latch) function, memory function and automatic gas management. This is a heavy duty DC unit in a compact, efficient and portable inverter design that is ideal for construction, shipbuilding, rental hire and other industrial applications.Victor Technologies Limited • Tel: +44 1257 224824 • Victor Technologies SRL • Tel: +39 02 36546801Victor Technologies GmbH • Tel : +49 (0) 2631 999960Features & beneFits:• Digital Meters: Voltage and Amperage; Preview and hold capability for easy set up.• Trigger Hold: 4T (Latch) eliminates operator fatigue.• Gas Purge: Ensures gas lines are purged at start of weld.• Tiptronics Job Save: Save up to 100 parameter application settings for quality repeatable welds.• Tungsten Size: Select tungsten size for optimum starting performance.• Spot Mode: Enables timer functions for consistent spot welds.• Excellent Portability: Small size and weight ensures best workspace footprint and job site portability.• Overload Protection: Shuts down the power source to protect the internal electrical components from overheating.• Meets IP23S Standards: Suitable for outdoor use.• Fully Integrated VRDVoltage reduction device for MMA welding available. (Please contact Victor Technologies if this is required)M a c H I n E S P E c I F I c a T I O n SType: constant current DC Stick & TIG Welder Maximum Output300AWelding amperage Range Stick: 10-200A / TIG: 5-300ARated Output:Stick: 35% @ 200A, TIG: 35% @ 300A Power Source Dimensions: (H x W x D)326 x 185 x 483 mm Power Source Weight 16.3 kg Warranty 3 Years p r i m a r Y p o W e rPrimary Voltage 400V Hertz 50/60 Hz Phase3 PH Designed To IP23SapprovalsEN 60974-1arcmaster ®301tsac/Dc HF tIG/stIcKarcmasterIndustrial Portable Welding Power sources®®p a r t n u m b e rd e s c r i p t i o nW1009305Tweco Arcmaster 220 AC/DC Inverter power supply with manual, primary cable and TIG plug W1009405Tweco Arcmaster 301 AC/DC Inverter power supply with manual, primary cable and TIG plug W1009205Tweco Arcmaster 301 TS Inverter power supply with manual, primary cable and TIG plugp a r t n u m b e rd e s c r i p t i o n10-4016Remote Foot Control 7.6m lead and plug 10-4014Remote Hand Pendant with 7.6m lead & plug 10-98118 Pin Plug for remote / TIG TorchW4001302CU-6 Arcmaster Water-Cooling Unit (301 TS & 301 AC/DC only)W4001350Water-Cooling Unit Cable Protector W4010003 2 Wheel Arcmaster Trolley 7-3580Torch Coolant, 3.81W401360126 Style TIG Torch with remote current control and plug, 3m 310.090.01126 Style TIG Torch with plug, 4m 310.090.01226 Style TIG Torch with plug, 8m310.090.01326 Style TIG Torch with flex neck and plug, 4m 310.090.01426 Style TIG Torch with flex neck and plug, 8m 311.050.00118 Style WC TIG Torch with plug, 4m 311.050.00218 Style WC TIG Torch with plug, 8m311.050.01118 Style WC TIG Torch with flex neck and plug, 4m 311.050.01218 Style WC TIG Torch with flex neck and plug, 8mForm No. (18/3/14)© 2013 Victor Technologies International, Inc.Printed in U.K.Victor Technologies Ltd: +44 1257 224824 • Victor Technologies SRL: +39 02 36546801 • Victor Technologies GmbH: +49 (0) 2631 999960I n n o v a t I o n t o S h a p e t h e W o r l d ™T E C H N O L O G I E S ™system packages:options & accessories:。

FM33LG0低功耗MCU芯片产品说明书2022.03本资料是为了让用户根据用途选择合适的上海复旦微电子集团股份有限公司（以下简称复旦微电子）的产品而提供的参考资料，不转让属于复旦微电子或者第三者所有的知识产权以及其他权利的许可。

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章节列表章节列表 (3)表目录 (23)图目录 (26)1产品综述 (33)1.1概述 (33)1.2芯片结构框图 (36)1.3产品型号列表 (37)1.4产品特性对照表 (38)2引脚和封装 (39)2.1封装和引脚排列 (39)2.1.1LQFP80封装图（FM33LG0x8） (39)2.1.2LQFP64封装图（FM33LG0x6） (40)2.1.3LQFP48封装图（FM33LG0x5） (41)2.1.4QFN32封装图（FM33LG0x3） (42)2.1.5引脚功能定义（FM33LG0xx） (43)2.1.6封装尺寸图 (50)2.2焊接安装说明 (56)2.3MSL等级 (57)2.4热阻特性 (58)3电参数 (59)3.1参数说明 (59)3.2参数测试条件 (59)3.2.1供电方案 (59)3.3极限参数 (61)3.4性能参数 (62)3.4.1典型工作条件 (62)3.4.2功耗参数 (62)3.4.3复位和电源监控 (64)3.4.4高精度基准源 (65)3.4.5低功耗模式唤醒时间 (67)3.4.6外部时钟源特性 (68)3.4.7内部时钟源特性 (70)3.4.8PLL特性 (71)3.4.9ADC特性 (72)3.4.10DAC特性 (78)3.4.11温度传感器 (81)3.4.12运算放大器特性 (83)3.4.13模拟比较器特性 (85)3.4.14Flash存储器特性 (86)3.4.15GPIO特性 (87)3.4.16LCD特性 (89)3.4.17VBAT测量特性 (90)4总线与存储 (91)4.1系统总线 (91)4.2存储空间分配 (92)4.2.1概述 (92)4.2.2外设模块寄存器地址分配 (95)4.3RAM (97)4.3.1概述 (97)4.4F LASH (98)4.4.1概述 (98)4.4.2特殊信息扇区说明 (98)4.4.3指令Prefetch (103)4.4.4Flash编程 (103)4.4.5Data Flash (108)4.4.6Flash的内容保护 (109)4.5寄存器 (112)4.5.1Flash读取控制寄存器（FLS_RDCR） (112)4.5.2预取指控制寄存器（FLS_PFCR） (113)4.5.3用户配置字寄存器（FLS_OPTBR） (113)4.5.4ACLOCK寄存器1（FLS_ACLOCK1） (114)4.5.5ACLOCK寄存器2（FLS_ACLOCK2） (115)4.5.6Flash擦写控制寄存器（FLS_EPCR） (115)4.5.7Flash Key输入寄存器（FLS_KEY） (116)4.5.8Flash中断使能寄存器（FLS_IER） (116)4.5.9Flash标志寄存器（FLS_ISR） (117)5电源管理单元（PMU） (119)5.1芯片工作电源 (119)5.1.1电源域划分 (119)5.1.2电源结构图 (120)5.1.3ADC和基准电压的独立供电 (120)5.1.4片内快速基准源（AVREF） (121)5.1.5片内高精度基准源（VREF1p2） (121)5.1.6VREFP产生（VREFP_VREG） (121)5.2功耗模式 (122)5.2.1概述 (122)5.2.2功耗模式与系统频率 (123)5.2.3Active模式 (124)5.2.4LP Active模式 (124)5.2.5LP Run模式 (125)5.2.6SLEEP模式 (125)5.2.7DEEPSLEEP模式 (126)5.2.8VBAT模式 (127)5.3唤醒源 (128)5.3.1VREF1p2延迟唤醒功能 (129)5.4休眠唤醒后的时钟控制 (130)5.5寄存器 (131)5.5.1低功耗控制寄存器（PMU_CR） (131)5.5.2唤醒时间控制寄存器（PMU_WKTR） (132)5.5.3唤醒源标志查询寄存器（PMU_WKFR） (133)5.5.4PMU中断使能寄存器（PMU_IER） (134)5.5.5PMU中断标志寄存器（PMU_ISR） (135)5.5.6ULPBG调校寄存器（PMU_ULPB_TR） (135)5.5.7VREFP控制寄存器（PMU_VREFP_CR） (136)5.5.8VREFP配置寄存器（PMU_VREFP_CFGR） (136)5.5.9VREFP状态标志寄存器（PMU_VREFP_ISR） (137)5.5.10VREFP调校寄存器（PMU_VREFP_TR） (138)6.1概述 (139)6.2基准电压的应用 (139)6.3温度传感器 (139)6.4输出缓冲器 (140)6.5芯片休眠 (140)6.6寄存器 (141)6.6.1VREF1p2控制寄存器（VREF_CR） (141)6.6.2VREF1p2配置寄存器（VREF_CFGR） (141)6.6.3VREF1p2标志寄存器（VREF_ISR） (142)6.6.4VREF1p2中断使能寄存器（VREF_IER） (143)6.6.5模拟BUFFER控制寄存器（VREF_BUFCR） (143)7VREFP基准电压（VREFP_VREG） (145)7.1概述 (145)7.2功能描述 (145)7.2.1概述 (145)7.2.2时钟和复位 (150)7.2.3参考电压 (150)7.2.4输出电压 (150)7.2.5工作模式 (151)7.2.6中断和标志 (152)7.3寄存器 (153)8备份电源域（VAO DOMAIN） (154)8.1概述 (154)8.2结构框图 (155)8.3电源切换 (155)8.4复位 (155)8.5低频晶体振荡电路(XTLF) (156)8.5.1概述 (156)8.5.2工作方式 (156)8.5.3停振检测 (156)8.6实时时钟(RTCB) (157)8.7IO (157)8.7.1使用PH15输入实现tamper检测 (157)8.8寄存器 (159)8.8.1VAO复位控制寄存器（VAO_RSTCR） (159)8.8.2XTLF控制寄存器（VAO_XTLFCR） (160)8.8.3XTLF振荡强度寄存器（VAO_XTLFPR） (160)8.8.4停振检测中断使能寄存器（VAO_FDIER） (161)8.8.5停振检测中断标志寄存器（VAO_FDISR） (162)8.8.6VAO IO输入使能寄存器（VAO_INEN） (162)8.8.7VAO IO上拉使能寄存器（VAO_PUEN） (163)8.8.8VAO IO开漏使能寄存器（VAO_ODEN） (163)8.8.9VAO IO功能选择寄存器（VAO_FCR） (164)8.8.10VAO IO输出数据寄存器（VAO_DOR） (164)8.8.11VAO IO输入数据寄存器（VAO_DIR） (165)8.8.12VAO IO输入低阈值配置寄存器（VAO_VILR） (165)9跨电源域接口（CDIF） (167)9.1概述 (167)9.2总线地址 (167)9.4寄存器（CPU DOMAIN） (168)9.4.1接口控制寄存器（CDIF_CR） (168)9.4.2接口预分频寄存器（CDIF_PRSC） (168)10处理器（CPU） (170)10.1概述 (170)10.1.1处理器配置 (170)10.2内核寄存器 (171)10.3异常和中断 (172)10.3.1中断向量表 (172)10.3.2中断优先级 (173)10.3.3错误处理 (173)10.3.4锁定（Lockup） (174)10.4MPU (174)10.4.1MPU寄存器 (175)10.5调试特性 (179)10.5.1调试功能引脚 (179)10.5.2调试状态下的看门狗控制 (179)10.5.3DEBUG的复位 (179)11复位管理单元（RMU） (180)11.1概述 (180)11.2模块框图 (181)11.3VDD上下电复位 (182)11.4软件复位 (183)11.5NRST引脚复位 (183)11.6寄存器 (184)11.6.1PDR配置寄存器（RMU_PDRCR） (184)11.6.2BOR配置寄存器（RMU_BORCR） (185)11.6.3复位配置寄存器（RMU_LKPCR） (185)11.6.4软件复位寄存器（RMU_SOFTRST） (186)11.6.5复位标志寄存器（RMU_RSTFR） (186)11.6.6外设复位使能寄存器（RMU_PRSTEN） (187)11.6.7AHB外设复位寄存器（RMU_AHBRSTCR） (187)11.6.8APB1外设复位寄存器（RMU_APBRSTCR1） (188)11.6.9APB2外设复位寄存器（RMU_APBRSTCR2） (190)12独立看门狗（IWDT） (192)12.1概述 (192)12.2结构框图 (192)12.3IWDT功能描述 (192)12.4IWDT窗口功能 (193)12.5IWDT冻结 (194)12.6寄存器 (195)12.6.1IWDT清除寄存器（IWDT_SERV） (195)12.6.2IWDT配置寄存器（IWDT_CR） (195)12.6.3IWDT计数值寄存器（IWDT_CNT） (196)12.6.4IWDT窗口寄存器（IWDT_WIN） (197)12.6.5IWDT中断使能寄存器（IWDT_IER） (197)12.6.6IWDT中断标志寄存器（IWDT_ISR） (197)13窗口看门狗（WWDT） (199)13.1功能描述 (199)13.3WWDT工作方式 (200)13.4寄存器 (202)13.4.1WWDT控制寄存器（WWDT_CR） (202)13.4.2WWDT配置寄存器（WWDT_CFGR） (202)13.4.3WWDT计数寄存器（WWDT_CNT） (203)13.4.4WWDT中断使能寄存器（WWDT_IER） (203)13.4.5WWDT中断标志寄存器（WWDT_ISR） (204)13.4.6WWDT预分频寄存器（WWDT_PSC） (204)14时钟管理单元（CMU） (206)14.1概述 (206)14.2时钟架构 (207)14.2.1时钟树 (207)14.2.2SYSCLK切换说明 (208)14.2.3时钟安全性 (208)14.2.4主要时钟说明 (208)14.2.5外设模块的总线时钟和工作时钟 (209)14.2.6休眠模式下的外设时钟 (210)14.2.7LSCLK切换逻辑 (211)14.3高频RC振荡器(RCHF) (212)14.3.1概述 (212)14.3.2软件使用指南 (212)14.4低频RC振荡器(RCLF) (213)14.4.1概述 (213)14.5低功耗RC振荡器(RCLP) (214)14.5.1概述 (214)14.5.2软件使用指南 (214)14.6高频晶体振荡电路(XTHF) (215)14.6.1概述 (215)14.6.2工作方式 (215)14.6.3停振检测（HFDET） (215)14.7锁相环(PLL) (216)14.7.1概述 (216)14.7.2软件应用指南 (216)14.8时钟校准 (217)14.9低功耗模式下的时钟源 (218)14.10休眠唤醒的时钟处理 (218)14.11寄存器 (219)14.11.1系统时钟配置寄存器（CMU_SYSCLKCR） (220)14.11.2RCHF时钟控制寄存器（CMU_RCHCR） (221)14.11.3RCHF调校寄存器（CMU_RCHFTR） (222)14.11.4PLL控制寄存器（CMU_PLLCR） (222)14.11.5RCLP控制寄存器（CMU_RCLPCR） (223)14.11.6RCLP调校寄存器（CMU_RCLPTR） (224)14.11.7LSCLK选择寄存器（CMU_LSCLKSEL） (224)14.11.8XTHF控制寄存器（CMU_XTHFCR） (225)14.11.9RCLF控制寄存器（CMU_RCLFCR） (225)14.11.10RCLF调校寄存器（CMU_RCLFTR） (226)14.11.11CMU中断使能寄存器（CMU_IER） (226)14.11.12CMU中断标志寄存器（CMU_ISR） (227)14.11.13外设总线时钟控制寄存器1（CMU_PCLKCR1） (228)14.11.14外设总线时钟控制寄存器2（CMU_PCLKCR2） (228)14.11.15外设总线时钟控制寄存器3（CMU_PCLKCR3） (229)14.11.16外设总线时钟控制寄存器4（CMU_PCLKCR4） (230)14.11.17外设工作时钟配置寄存器1（CMU_OPCCR1） (231)14.11.18外设工作时钟配置寄存器2（CMU_OPCCR2） (232)14.11.19外设工作时钟配置寄存器3（CMU_OPCCR3） (233)14.11.20AHB Master控制寄存器(CMU_AHBMCR) (234)14.11.21时钟校准控制寄存器（CMU_CCCR） (235)14.11.22时钟校准配置寄存器（CMU_CCFR） (235)14.11.23时钟校准计数值寄存器（CMU_CCNR） (236)14.11.24时钟校准中断标志寄存器（CMU_CCISR） (237)15电源电压监测（SVD） (238)15.1概述 (238)15.2结构框图 (238)15.3引脚定义 (239)15.4功能描述 (239)15.5间歇使能模式 (241)15.6外部电源检测 (241)15.7电源检测阈值 (242)15.8寄存器 (246)15.8.1SVD配置寄存器（SVD_CFGR） (246)15.8.2SVD控制寄存器（SVD_CR） (247)15.8.3SVD中断使能寄存器（SVD_IER） (247)15.8.4SVD状态和标志寄存器（SVD_ISR） (248)15.8.5SVD参考电压选择寄存器（SVD_VSR） (248)16AES硬件运算单元（AES） (250)16.1功能描述 (250)16.2工作模式 (250)16.3AES数据流处理模式 (251)16.3.1ECB模式 (251)16.3.2CBC模式 (252)16.3.3暂停模式 (254)16.3.4CTR模式 (255)16.3.5CTR模式下的暂停模式 (256)16.3.6GCM模式 (256)16.3.7MultH模块 (259)16.3.8推荐的GCM流程 (260)16.4数据类型 (261)16.5工作流程 (262)16.5.1模式1：加密 (262)16.5.2模式2：密钥扩展 (263)16.5.3模式3：解密 (264)16.5.4模式4：密钥扩展+解密 (264)16.5.5使用MultH模块 (265)16.6DMA接口 (266)16.6.1MultH模块与DMA间接口 (267)16.7错误标志 (267)16.8寄存器 (268)16.8.1AES控制寄存器（AES_CR） (268)16.8.2AES中断使能寄存器（AES_IER） (270)16.8.3AES中断标志寄存器（AES_ISR） (271)16.8.4AES数据输入寄存器（AES_DIR） (271)16.8.6AES秘钥寄存器（AES_KEYx） (272)16.8.7AES初始向量寄存器（AES_IVRx） (273)16.8.8AES MultH参数寄存器（AES_Hx） (273)17随机数发生器（TRNG） (274)17.1概述 (274)17.2功能描述 (275)17.2.1随机数产生 (275)17.2.2工作时钟 (275)17.2.3随机数读取 (276)17.2.4CRC运算 (276)17.3寄存器 (277)17.3.1随机数控制寄存器（RNG_CR） (277)17.3.2随机数/CRC结果输出寄存器（RNG_DOR） (277)17.3.3RNG标志寄存器（RNG_SR） (278)17.3.4CRC控制寄存器（RNG_CRCCR） (278)17.3.5CRC输入数据寄存器（RNG_CRCDIR） (279)17.3.6CRC标志寄存器（RNG_CRCSR） (279)18运算放大器（OPA1） (281)18.1概述 (281)18.2结构框图 (282)18.3引脚定义 (283)18.4功能描述 (283)18.4.1时钟和复位 (283)18.4.2Standalone模式（non-inverting amplifier） (284)18.4.3Standalone模式（inverting amplifier） (285)18.4.4Buffer模式 (285)18.4.5同相PGA模式 (286)18.4.6反相PGA模式 (288)18.4.7Offset校准 (290)18.4.8低功耗模式 (291)18.4.9休眠模式下的OPA (292)18.5寄存器 (293)18.5.1OPA1控制寄存器（OPA1_CR） (293)18.5.2OPA1校准寄存器（OPA1_CALR） (294)18.5.3OPA1校准输出寄存器（OPA1_COR） (295)19模拟比较器（COMPARATOR） (297)19.1概述 (297)19.2结构框图 (298)19.3功能描述 (299)19.3.1基本功能 (299)19.3.2内部比较基准选择和产生 (299)19.3.3时钟和复位 (300)19.3.4引脚和内部信号连接 (300)19.3.5窗口功能 (301)19.3.6功耗和速度模式 (302)19.3.1比较器中断 (303)19.3.2比较器输出和触发输出 (303)19.3.3输出数字滤波 (305)19.4寄存器 (306)控制寄存器（）19.4.3COMP3控制寄存器（COMP3_CR） (309)19.4.4COMP中断配置寄存器（COMP_ICR） (310)19.4.5COMP中断标志寄存器（COMP_IF） (311)19.4.6COMP缓冲器控制寄存器（COMP_BUFCR） (311)20除法/开方运算加速器（DIVAS） (313)20.1概述 (313)20.2时钟和复位 (313)20.3硬件除法工作流程 (313)20.4硬件开方工作流程 (314)20.5寄存器 (315)20.5.1操作数寄存器 (315)20.5.2除数寄存器 (315)20.5.3商寄存器 (316)20.5.4余数寄存器 (316)20.5.5根寄存器 (317)20.5.6状态标志寄存器 (317)20.5.7控制寄存器 (318)21双线串行总线（I2C） (319)21.1概述 (319)21.2结构框图 (319)21.3引脚定义和上拉电阻范围 (320)21.4时钟和复位 (324)21.5接口时序 (325)21.5.1接口时序图 (325)21.5.2接口时序描述 (326)21.6I2C工作模式 (328)21.7I2C从机地址格式 (329)21.8I2C初始化 (330)21.8.1IO配置 (330)21.8.2主机波特率配置 (330)21.8.3从机的输入模拟滤波和输出延迟 (331)21.9I2C主机功能 (332)21.9.17bit寻址 (332)21.9.210bit寻址 (337)21.9.3DMA (340)21.9.4SCL延展（Slave Clock Stretching） (344)21.9.5超时机制 (344)21.9.6可编程时序 (344)21.10I2C从机功能 (346)21.10.1从机寻址 (346)21.10.2从机发送数据 (346)21.10.3从机接收数据 (347)21.10.4从机低功耗接收唤醒 (349)21.10.5DMA (349)21.10.6从机时序 (353)21.11寄存器 (354)21.11.1I2C主机配置寄存器（I2C_MSPCFGR） (354)21.11.2I2C主机控制寄存器（I2C_MSPCR） (355)21.11.3I2C主机中断使能寄存器（I2C_MSPIER） (356)21.11.4I2C主机中断标志寄存器（I2C_MSPISR） (357)21.11.5I2C主机状态寄存器（I2C_MSPSR） (357)21.11.6I2C主机波特率设置寄存器（I2C_MSPBGR） (358)21.11.7I2C主机收发缓冲寄存器（I2C_MSPBUF） (359)21.11.8I2C主机时序控制寄存器（I2C_MSPTCR） (359)21.11.9I2C主机超时寄存器（I2C_MSPTOR） (360)21.11.10I2C从机控制寄存器（I2C_SSPCR） (360)21.11.11I2C从机中断使能寄存器（I2C_SSPIER） (361)21.11.12I2C从机中断标志寄存器（I2C_SSPISR） (362)21.11.13I2C从机状态寄存器（I2C_SSPSR） (363)21.11.14I2C从机收发缓冲寄存器（I2C_SSPBUF） (364)21.11.15I2C从机地址寄存器（I2C_SSPADR） (364)22通用异步收发传输器（UART） (366)22.1概述 (366)22.2结构框图 (367)22.3引脚定义 (368)22.4UART类型区分 (369)22.5UART字符描述 (369)22.6功能描述 (371)22.6.1时钟和复位 (371)22.6.2位接收采样 (371)22.6.3数据发送 (372)22.6.4数据接收 (374)22.6.5低功耗休眠唤醒（UART0/1） (375)22.6.6使用DMA进行UART收发 (375)22.6.7DMA模式下的发送完成中断 (376)22.7波特率发生 (376)22.7.1波特率发生 (376)22.7.1波特率自适应 (377)22.8红外调制 (378)22.9接收超时 (379)22.10发送延迟 (379)22.11寄存器 (380)22.11.1红外调制寄存器（UART_IRCR） (381)22.11.2UARTx控制状态寄存器（UARTx_CSR） (382)22.11.3UARTx中断使能寄存器（UARTx_IER） (383)22.11.4UARTx中断标志寄存器（UARTx_ISR） (384)22.11.5UARTx超时和延迟寄存器（UARTx_TODR） (385)22.11.6UARTx接收缓冲寄存器（UARTx_RXBUF） (385)22.11.7UARTx发送缓冲寄存器（UARTx_TXBUF） (386)22.11.8UATRx波特率产生寄存器（UARTx_BGR） (386)23低功耗UART（LPUART） (388)23.1概述 (388)23.2结构框图 (389)23.3引脚定义 (390)23.4时钟和复位 (390)23.5字符描述 (391)23.6功能描述 (393)23.6.1位接收采样和发送 (393)23.6.2接收流程 (394)23.6.3发送流程 (394)23.6.4使用DMA进行LPUART收发 (394)23.6.5休眠模式下的数据接收唤醒 (395)23.6.6LPRUN模式下的数据DMA收发 (395)23.6.7DMA模式下的发送完成中断 (395)23.7寄存器 (397)23.7.1LPUARTx控制状态寄存器（LPUARTx_CSR） (398)23.7.2LPUARTx中断使能寄存器（LPUARTx _IER） (399)23.7.3LPUARTx中断标志寄存器（LPUARTx _ISR） (400)23.7.4LPUARTx波特率调制寄存器（LPUARTx _BMR） (400)23.7.5LPUARTx接收数据寄存器（LPUARTx _RXBUF） (401)23.7.6LPUARTx发送数据寄存器（LPUARTx _TXBUF） (402)23.7.7LPUARTx数据匹配寄存器（LPUARTx _DMR） (402)24串行外设接口（SPI） (404)24.1概述 (404)24.2结构框图 (404)24.3引脚定义 (406)24.4时钟和复位 (406)24.5接口时序 (406)24.5.1CPHA=0 (406)24.5.2CPHA=1 (407)24.5.14线半双工模式（主机） (407)24.6功能描述 (409)24.6.1I/O配置 (409)24.6.2全双工数据通信 (410)24.6.3TX-ONLY模式 (411)24.6.4RX-ONLY模式 (412)24.6.5主机SSN控制 (412)24.6.6数据冲突 (413)24.6.7使用DMA进行SPI收发 (413)24.7寄存器 (415)24.7.1SPI控制寄存器1（SPIx_CR1） (416)24.7.2SPI控制寄存器2（SPIx_CR2） (417)24.7.3SPI控制寄存器3（SPIx_CR3） (418)24.7.4SPI中断控制寄存器（SPIx_IER） (419)24.7.5SPI中断标志寄存器（SPIx_ISR） (419)24.7.6SPI发送缓存寄存器（SPIx_TXBUF） (420)24.7.7SPI发送缓存寄存器（SPIx_RXBUF） (420)25智能卡接口（ISO7816） (422)25.1概述 (422)25.2结构框图 (422)25.3时钟和复位 (423)25.4接口时序 (423)25.5功能描述 (424)25.5.1数据接收 (424)25.5.2数据发送 (424)25.5.3使用DMA进行7816收发 (426)25.6寄存器 (427)25.6.1U7816控制寄存器（U7816_CR） (427)25.6.2U7816帧格式控制寄存器（U7816_FFR） (428)25.6.3U7816额外保护时间寄存器（U7816_EGTR） (429)25.6.4U7816工作时钟分频寄存器（U7816_PSC） (429)25.6.5U7816波特率寄存器（U7816_BGR） (430)25.6.6U7816数据接收缓冲寄存器（U7816_RXBUF） (430)25.6.7U7816数据发送缓冲寄存器（U7816_TXBUF） (431)25.6.8U7816中断使能寄存器（U7816_IER） (431)25.6.9U7816状态标志寄存器（U7816_ISR） (432)26控制器区域网络（CAN） (434)26.1概述 (434)26.2结构框图 (434)26.3引脚定义 (435)26.4功能描述 (435)26.4.1时钟和复位 (435)26.4.2Bit timing (435)26.4.3Bit stream processor (436)26.4.4控制器工作模式 (436)26.4.5消息帧存储和消息帧结构（Message storage and structure） (437)26.4.6消息滤波器（Acceptance Filter） (439)26.4.7错误管理 (439)26.5编程模型 (443)26.5.1寄存器配置 (443)26.5.2消息传输 (443)26.6寄存器 (445)26.6.1CAN控制寄存器（CAN_CR） (446)26.6.2CAN模式选择寄存器（CAN_MSR） (447)26.6.3CAN波特率预分频寄存器（CAN_BRPR） (447)26.6.4CAN位时序寄存器（CAN_BTR） (448)26.6.5CAN错误计数寄存器（CAN_ECR） (448)26.6.6CAN错误状态寄存器（CAN_ESR） (449)26.6.7CAN状态标志寄存器（CAN_SR） (450)26.6.8CAN中断标志寄存器（CAN_ISR） (451)26.6.9CAN中断使能寄存器（CAN_IER） (452)26.6.10CAN中断清除寄存器（CAN_ICR） (453)26.6.11CAN发送FIFO ID寄存器（CAN_TXFIDR） (453)26.6.12CAN发送FIFO DLC寄存器（CAN_TXFDLCR） (454)26.6.13CAN发送FIFO DataWord1寄存器（CAN_TXFDW1R） (454)26.6.14CAN发送FIFO DataWord2寄存器（CAN_TXFDW2R） (455)26.6.15CAN高优先级发送缓冲ID寄存器（CAN_HPBIDR） (455)26.6.16CAN高优先级发送缓冲DLC寄存器（CAN_HPBDLCR） (456)26.6.17CAN高优先级发送缓冲DataWord1寄存器（CAN_HPBDW1R） (456)26.6.18CAN高优先级发送缓冲DataWord2寄存器（CAN_HPBDW2R） (457)26.6.19CAN接收FIFO ID寄存器（CAN_RXF_IDR） (457)26.6.20CAN接收FIFO DLC寄存器（CAN_RXFDLCR） (458)26.6.21CAN接收FIFO DataWord1寄存器（CAN_RXFDW1R） (458)26.6.22CAN接收FIFO DataWord2寄存器（CAN_RXFDW2R） (459)26.6.23CAN接收滤波寄存器（CAN_AFR） (459)26.6.24CAN接收滤波掩码寄存器x（CAN_AFMRx） (460)26.6.25CAN接收滤波ID寄存器x（CAN_AFIRx） (461)27直接存储访问控制器（DMA） (462)27.1概述 (462)27.2工作原理 (463)27.3结构框图 (464)27.4工作流程 (464)27.5访问带宽 (466)27.6通道控制 (467)27.6.1DMA请求映射 (467)27.6.2通道优先级 (468)27.6.3传输方向定义 (468)27.6.4循环模式 (468)27.7寄存器 (469)27.7.1DMA全局控制寄存器（DMA_GCR） (469)27.7.2通道x控制寄存器（DMA_CHxCR） (470)27.7.3通道x存储器指针寄存器（DMA_CHxMAD） (471)27.7.4通道7控制寄存器（DMA_CH7CR） (472)27.7.5通道7 Flash指针寄存器（DMA_CH7FLSAD） (473)27.7.6通道7 RAM指针寄存器（DMA_CH7RAMAD） (473)27.7.7DMA状态标志寄存器（DMA_ISR） (474)28循环冗余校验（CRC） (475)28.1概述 (475)28.2软件配置过程 (476)28.3G OLDEN 数据 (477)28.4DMA接口 (477)28.5F LASH数据完整性校验 (478)28.6寄存器 (479)28.6.1CRC数据寄存器（CRC_DR） (479)28.6.2CRC控制状态寄存器（CRC_CR） (479)28.6.3CRC LFSR寄存器（CRC_LFSR） (481)28.6.4CRC输出异或寄存器（CRC_XOR） (481)28.6.5CRC多项式寄存器（CRC_POLY） (481)29高级定时器（ATIM） (483)29.1概述 (483)29.2主要特性 (483)29.3结构框图 (484)29.4功能描述 (485)29.4.1定时单元 (485)29.4.2定时器工作模式 (487)29.4.3重复计数器 (494)29.4.4Preload寄存器 (495)29.4.5计数器工作时钟 (496)29.4.6内部触发信号（ITRx） (501)29.4.7捕捉/比较通道 (502)29.4.8输入捕捉模式 (504)29.4.9软件Force输出 (506)29.4.10输出比较模式 (507)29.4.11PWM输出 (508)29.4.12互补输出和死区插入 (510)29.4.13刹车功能 (511)29.4.14互补输出通道信号状态逻辑表 (513)29.4.156-step PWM输出 (514)29.4.16单脉冲输出 (515)29.4.17外部事件清除OCxREF (517)29.4.18编码器接口模式（encoder interface） (518)29.4.19TIM从机模式 (520)29.4.20DMA访问 (523)29.4.21DMA Burst (524)29.4.22输入异或功能 (525)29.4.23霍尔传感器接口 (525)29.4.24Debug模式 (526)29.5.1ATIM控制寄存器1（ATIM_CR1） (527)29.5.2ATIM控制寄存器2（ATIM_CR2） (529)29.5.3ATIM从机模式控制寄存器（ATIM_SMCR） (530)29.5.4ATIM DMA和中断使能寄存器（ATIM_DIER） (532)29.5.5ATIM状态寄存器（ATIM_ISR） (533)29.5.6ATIM事件产生寄存器（ATIM_EGR） (535)29.5.7ATIM捕捉/比较模式寄存器1（ATIM_CCMR1） (535)29.5.8ATIM捕捉/比较模式寄存器2（ATIM_CCMR2） (538)29.5.9ATIM捕捉/比较使能寄存器（ATIM_CCER） (540)29.5.10ATIM计数器寄存器（ATIM_CNT） (541)29.5.11ATIM预分频寄存器（ATIM_PSC） (541)29.5.12ATIM自动重载寄存器（ATIM_ARR） (542)29.5.13ATIM重复计数寄存器（ATIM_RCR） (542)29.5.14ATIM捕捉/比较寄存器1（ATIM_CCR1） (543)29.5.15ATIM捕捉/比较寄存器2（ATIM_CCR2） (544)29.5.16ATIM捕捉/比较寄存器3（ATIM_CCR3） (544)29.5.17ATIM捕捉/比较寄存器4（ATIM_CCR4） (545)29.5.18ATIM刹车和死区控制寄存器（ATIM_BDTR） (545)29.5.19ATIM DMA控制寄存器（ATIM_DCR） (547)29.5.20ATIM DMA访问寄存器（ATIM_DMAR） (548)29.5.21ATIM刹车输入控制寄存器（ATIM_BKCR） (548)30通用定时器（GPTIM0,1,2） (550)30.1概述 (550)30.2主要特性 (550)30.3结构框图 (551)30.4功能描述 (552)30.4.1定时单元 (552)30.4.2定时器工作模式 (554)30.4.3计数器工作时钟 (561)30.4.4内部触发信号（ITRx）的捕捉 (567)30.4.5捕捉/比较通道 (568)30.4.6输入捕捉模式 (569)30.4.7软件Force输出 (571)30.4.8输出比较模式 (571)30.4.9PWM模式 (572)30.4.10单脉冲输出 (573)30.4.11外部事件清除OCxREF (575)30.4.12编码器接口模式（encoder interface） (575)30.4.13GPTIM从机模式 (576)30.4.14DMA访问 (579)30.4.15DMA Burst (580)30.4.16输入异或功能 (580)30.4.17Debug模式 (580)30.5寄存器 (581)30.5.1GPTIMx控制寄存器1（GPTIMx_CR1） (583)30.5.2GPTIMx控制寄存器2（GPTIMx_CR2） (584)30.5.3GPTIMx从机模式控制寄存器（GPTIMx_SMCR） (585)30.5.4GPTIMx DMA和中断使能寄存器（GPTIMx_DIER） (587)30.5.5GPTIMx状态寄存器（GPTIMx_ISR） (588)30.5.6GPTIMx事件产生寄存器（GPTIMx_EGR） (589)30.5.7GPTIMx捕捉/比较模式寄存器1（GPTIMx_CCMR1） (590)30.5.8GPTIMx捕捉/比较模式寄存器2（GPTIMx_CCMR2） (592)30.5.9GPTIMx捕捉/比较使能寄存器（GPTIMx_CCER） (595)30.5.10GPTIMx计数器寄存器（GPTIMx_CNT） (596)30.5.11GPTIMx预分频寄存器（GPTIMx_PSC） (596)30.5.12GPTIMx自动重载寄存器（GPTIMx_ARR） (597)30.5.13GPTIMx捕捉/比较寄存器1（GPTIMx_CCR1） (597)30.5.14GPTIMx捕捉/比较寄存器2（GPTIMx_CCR2） (598)30.5.15GPTIMx捕捉/比较寄存器3（GPTIMx_CCR3） (598)30.5.16GPTIMx捕捉/比较寄存器4（GPTIMx_CCR4） (599)30.5.17GPTIMx DMA控制寄存器（GPTIMx_DCR） (599)30.5.18GPTIMx DMA访问寄存器（GPTIMx_DMAR） (600)30.5.19GPTIMx ITR选择寄存器（GPTIMx_ITRSEL） (601)3132位基本定时器（BSTIM32） (603)31.1概述 (603)31.2主要特性 (603)31.3结构框图 (603)31.4功能描述 (604)31.4.1定时单元 (604)31.4.2定时器工作模式 (606)31.4.3计数器工作时钟 (608)31.4.1Debug模式 (609)31.5寄存器 (610)31.5.1BSTIM32控制寄存器1（BSTIM32_CR1） (610)31.5.2BSTIM32控制寄存器2（BSTIM32_CR2） (611)31.5.3BSTIM32中断使能寄存器（BSTIM32_IER） (611)31.5.4BSTIM32中断标志寄存器（BSTIM32_ISR） (612)31.5.5BSTIM32事件产生寄存器（BSTIM32_EGR） (613)31.5.6BSTIM32计数器寄存器（BSTIM32_CNT） (613)31.5.7BSTIM32预分频寄存器（BSTIM_PSC） (614)31.5.8BSTIM32自动重载寄存器（BSTIM32_ARR） (614)3216位基本定时器（BSTIM16） (615)32.1概述 (615)32.2主要特性 (615)32.3结构框图 (615)32.4功能描述 (616)32.4.1定时单元 (616)32.4.2定时器工作模式 (618)32.4.3计数器工作时钟 (620)32.4.4Debug模式 (621)32.5寄存器 (622)32.5.1BSTIM16控制寄存器1（BSTIM16_CR1） (622)32.5.2BSTIM16控制寄存器2（BSTIM16_CR2） (623)32.5.3BSTIM16中断使能寄存器（BSTIM16_IER） (624)32.5.4BSTIM16中断标志寄存器（BSTIM16_ISR） (624)32.5.5BSTIM16事件产生寄存器（BSTIM16_EGR） (625)32.5.1BSTIM16计数器寄存器（BSTIM16_CNT） (625)32.5.1BSTIM16预分频寄存器（BSTIM16_PSC） (626)32.5.1BSTIM16自动重载寄存器（BSTIM16_ARR） (626)3332位低功耗定时器（LPTIM32） (628)33.1概述 (628)33.2结构框图 (629)33.5定时器功能 (630)33.5.1普通定时器 (630)33.5.2外部脉冲触发计数 (630)33.5.3外部异步脉冲计数 (631)33.5.4Timeout模式 (631)33.6捕捉比较功能 (632)33.6.132bit PWM (632)33.6.2输入捕捉 (633)33.7触发信号输出 (634)33.8寄存器 (635)33.8.1LPTIM32配置寄存器（LPTIM32_CFGR） (635)33.8.2LPTIM32计数值寄存器（LPTIM32_CNT） (637)33.8.3LPTIM32捕捉比较控制和状态寄存器（LPTIM32_CCSR） (637)33.8.4LPTIM32目标值寄存器（LPTIM32_ARR） (639)33.8.5LPTIM32中断使能寄存器（LPTIM32_IER） (640)33.8.6LPTIM32中断标志寄存器（LPTIM32_ISR） (641)33.8.7LPTIM32控制寄存器（LPTIM32_CR） (642)33.8.8LPTIM32捕捉比较寄存器1（LPTIM32_CCR1） (643)33.8.9LPTIM32捕捉比较寄存器2（LPTIM32_CCR2） (643)33.8.10LPTIM32捕捉比较寄存器3（LPTIM32_CCR3） (644)33.8.11LPTIM32捕捉比较寄存器4（LPTIM32_CCR4） (644)3416位低功耗定时器（LPTIM16） (645)34.1概述 (645)34.2结构框图 (646)34.3时钟和复位 (646)34.4相关引脚 (647)34.5定时器功能 (647)34.5.1普通定时器 (647)34.5.2外部脉冲触发计数 (647)34.5.3外部异步脉冲计数 (648)34.5.4Timeout模式 (648)34.6捕捉比较功能 (649)34.6.116bit PWM (649)34.6.2输入捕捉 (650)34.6.3输入数字滤波 (651)34.7正交编码器 (652)34.8触发信号输出 (653)34.9寄存器 (654)34.9.1LPTIM16配置寄存器（LPTIM16_CFGR） (654)34.9.2LPTIM16计数值寄存器（LPTIM16_CNT） (656)34.9.3LPTIM16捕捉比较控制和状态寄存器（LPTIM16_CCSR） (656)34.9.4LPTIM16目标值寄存器（LPTIM16_ARR） (658)34.9.5LPTIM中断使能寄存器（LPTIM_IER） (659)34.9.6LPTIM16中断标志寄存器（LPTIM16_ISR） (659)34.9.7LPTIM16控制寄存器（LPTIM16_CR） (660)34.9.8LPTIM16捕捉比较寄存器1（LPTIM16_CCR1） (661)34.9.9LPTIM16捕捉比较寄存器2（LPTIM16_CCR2） (661)35实时时钟（RTCA） (663)35.1概述 (663)35.2结构框图 (663)35.3工作原理 (664)35.3.2LTBC数字调校 (665)35.3.3BCD时间 (666)35.3.4RTC使能与停止 (667)35.3.5RTC时间设置 (667)35.3.6RTC时间读取 (667)35.3.7闰年判断 (668)35.4寄存器 (669)35.4.1RTCA写使能寄存器（RTCA_WER） (669)35.4.2RTCA中断使能寄存器（RTCA_IER） (670)35.4.3RTCA中断标志寄存器（RTCA_ISR） (671)35.4.4BCD时间秒寄存器（RTCA_BCDSEC） (672)35.4.5BCD时间分钟寄存器（RTCA_BCDMIN） (673)35.4.6BCD时间小时寄存器（RTCA_BCDHOUR） (673)35.4.7BCD时间天寄存器（RTCA_BCDDAY） (674)35.4.8BCD时间星期寄存器（RTCA_BCDWEEK） (674)35.4.9BCD时间月寄存器（RTCA_BCDMONTH） (675)35.4.10BCD时间年寄存器（RTCA_BCDYEAR） (675)35.4.11闹钟寄存器（RTCA_ALARM） (676)35.4.12RTC时间信号输出寄存器（RTCA_TMSEL） (676)35.4.13LTBC数值调整寄存器（RTCA_ADJUST） (677)35.4.14毫秒计数值寄存器（RTCA_SBSCNT） (678)35.4.15RTCA控制寄存器RTCA_CR (678)36实时时钟（RTCB） (679)36.1概述 (679)36.2结构框图 (679)36.3工作原理 (680)36.3.1工作时钟 (680)36.3.2时基计数器（LTBC） (680)36.3.3LTBC数字调校 (680)36.3.4BCD时间 (682)36.3.5RTC使能与停止 (682)36.3.6RTC时间设置 (683)36.3.7RTC时间读取 (683)36.3.8闰年判断 (684)36.3.9RTC时间戳 (684)36.3.10备份寄存器 (685)36.4寄存器 (686)36.4.1RTCB写使能寄存器（RTCB_WER） (687)36.4.2RTCB中断使能寄存器（RTCB_IER） (687)36.4.3RTCB中断标志寄存器（RTCB_ISR） (688)36.4.4BCD时间秒寄存器（RTCB_BCDSEC） (689)36.4.5BCD时间分钟寄存器（RTCB_BCDMIN） (689)36.4.6BCD时间小时寄存器（RTCB_BCDHOUR） (690)36.4.7BCD时间天寄存器（RTCB_BCDDAY） (690)36.4.8BCD时间星期寄存器（RTCB_BCDWEEK） (691)36.4.9BCD时间月寄存器（RTCB_BCDMONTH） (691)36.4.10BCD时间年寄存器（RTCB_BCDYEAR） (692)36.4.11RTCB时间信号输出寄存器（RTCB_TMSEL） (692)36.4.12RTCB时钟调校寄存器（RTCB_ADJR） (693)36.4.13RTCB控制寄存器（RTCB_CR） (693)36.4.14RTCB时间戳控制寄存器（RTCB_STPCR） (694)36.4.15RTCB时间戳时钟寄存器（RTCB_STPCLKRR） (695)36.4.16RTCB时间戳日历寄存器（RTCB_STPCALRR） (695)36.4.17RTCB备份寄存器组（RTCB_BKRx） (696)37段码液晶驱动（LCD） (697)37.1概述 (697)37.2结构框图 (697)37.3IO配置 (699)37.4功能说明 (699)37.4.1工作时钟和显示帧频率 (699)37.4.2LCD Type A扫描波形 (699)37.4.3LCD Type B扫描波形 (704)37.4.4片内buffer驱动模式 (708)37.4.5片外电容驱动模式 (708)37.4.6显示闪烁功能 (709)37.4.7偏置电压调整 (709)37.5低功耗模式 (710)37.6寄存器 (711)37.6.1显示控制寄存器（LCD_CR） (711)37.6.2显示测试控制寄存器（LCD_TEST） (713)37.6.3显示频率控制寄存器（LCD_FCR） (714)37.6.4闪烁时间寄存器（LCD_FLKT） (715)37.6.5显示中断使能寄存器（LCD_IER） (715)37.6.6显示中断标志寄存器（LCD_ISR） (716)37.6.7显示数据寄存器（LCD_DATAx） (716)37.6.8LCD COM使能控制寄存器（LCD_COMEN） (723)37.6.9LCD SEG使能控制寄存器0（LCD_SEGEN0） (723)37.6.10LCD SEG使能控制寄存器1（LCD_SEGEN1） (724)38模数转换器（ADC） (725)38.1概述 (725)38.2结构框图 (726)38.3输入通道 (727)38.4单端和差分输入 (728)38.5工作时序 (730)38.6功能描述 (732)38.6.1使用VDDA作为基准 (732)38.6.2使用VREFP作为基准 (733)38.6.3温度传感器 (733)38.6.4温度传感器的斜率和标定 (734)38.6.5可编程采样时间 (734)38.6.6输出位宽选择 (736)38.6.7输入缓冲器 (736)38.6.8VBAT和VDD电源电压采样 (737)38.6.9内部信号采样 (737)38.6.10转换模式 (738)38.6.11转换触发 (741)38.6.12过采样和硬件平均 (742)38.6.13ADC工作时钟 (743)38.6.14数据冲突和自动等待 (743)38.6.15DMA (744)38.6.16模拟窗口看门狗（AWD） (750)38.6.17ADC校准 (751)38.8寄存器 (753)38.8.1ADC中断和状态寄存器（ADC_ISR） (753)38.8.2ADC中断使能寄存器（ADC_IER） (754)38.8.3ADC控制寄存器1（ADC_CR1） (755)38.8.4ADC控制寄存器2（ADC_CR2） (755)38.8.5ADC校准控制寄存器（ADC_CALR） (756)38.8.6ADC配置寄存器1（ADC_CFGR1） (757)38.8.7ADC配置寄存器2（ADC_CFGR2） (758)38.8.8ADC采样时间控制寄存器（ADC_SMTR） (760)38.8.9ADC通道控制寄存器（ADC_CHER） (762)38.8.10ADC通道差分控制寄存器（ADC_DCR） (763)38.8.11ADC数据寄存器（ADC_DR） (763)38.8.12AWD阈值寄存器（ADC_HLTR） (764)39数模转换器（DAC） (765)39.1概述 (765)39.2结构框图 (765)39.3引脚定义 (766)39.4DAC输出与引脚和其他模块的互联 (766)39.5功能描述 (767)39.5.1工作时钟与信号时序 (767)39.5.2DAC输出模式 (767)39.5.3DAC触发源选择 (769)39.5.4DAC输出电压 (769)39.5.5DMA (769)39.5.6采样保持 (770)39.5.7DAC输出Buffer (772)39.5.8低功耗模式下的DAC (773)39.6寄存器 (774)39.6.1DAC控制寄存器1（DAC_CR1） (774)39.6.2DAC控制寄存器2（DAC_CR2） (774)39.6.1DAC配置寄存器（DAC_CFGR） (775)39.6.2DAC软件触发寄存器（DAC_SWTRGR） (776)39.6.3DAC数据保持寄存器（DAC_DHR） (776)39.6.4DAC状态标志寄存器（DAC_ISR） (777)39.6.5DAC中断使能寄存器（DAC_IER） (777)39.6.1DAC采样保持时间寄存器（DAC_SHTR） (778)40可编程胶合逻辑（PGL） (780)40.1概述 (780)40.2结构框图 (780)40.3引脚定义 (782)40.4功能描述 (783)40.4.1LUT真值表 (783)40.4.2LUT输入 (784)40.4.3LUT输出 (784)40.4.4滤波和采样 (784)40.4.5中断和触发 (785)40.4.6低功耗模式 (786)40.5寄存器 (787)40.5.1PGL控制寄存器（PGL_CR） (787)40.5.2PGL配置寄存器0（PGL_CFGR0） (788)40.5.3PGL配置寄存器1（PGL_CFGR1） (789)40.5.5PGL配置寄存器3（PGL_CFGR3） (791)40.5.6PGL中断使能寄存器（PGL_IER） (792)40.5.7PGL中断标志寄存器（PGL_ISR） (793)40.5.8LUT0真值表寄存器（PGL_LUT0） (793)40.5.9LUT1真值表寄存器（PGL_LUT1） (794)40.5.10LUT2真值表寄存器（PGL_LUT2） (794)40.5.11LUT3真值表寄存器（PGL_LUT3） (795)41I/O端口（GPIO） (796)41.1概述 (796)41.2引脚类型 (796)41.2.1GPIO，输入输出使能，可控上拉电阻，可控开漏输出 (797)41.2.2GPIO，输入输出使能，2个可控上拉电阻，可控开漏输出（仅PC12-7816数据口） (798)41.3IO端口功能定义 (798)41.3.1GPIO输入 (798)41.3.2GPIO输出 (799)41.3.3数字外设功能 (799)41.3.4模拟功能 (801)41.3.5使用外部晶体引脚 (802)41.4VBAT供电引脚 (802)41.5SWD引脚 (803)41.6WKUP X引脚 (803)41.7外部引脚中断（EXTI） (804)41.7.1功能说明 (804)41.7.2应用指南 (805)41.8快速GPIO输出 (806)41.9寄存器 (807)41.9.1GPIO输入使能寄存器（GPIOx_INEN） (810)41.9.2GPIO上拉使能寄存器（GPIOx_PUEN） (810)41.9.3GPIO开漏使能寄存器（GPIOx_ODEN） (811)41.9.4GPIO功能选择寄存器（GPIOx_FCR） (811)41.9.5GPIO输出数据寄存器（GPIOx_DO） (813)41.9.6GPIO输出数据置位寄存器（GPIOx_DSET） (814)41.9.7GPIO输出数据复位寄存器（GPIOx_DRST） (814)41.9.8GPIO输入数据寄存器（GPIOx_DIN） (815)41.9.9GPIO额外数字功能选择寄存器（GPIOx_DFS） (816)41.9.10GPIO模拟开关使能寄存器（GPIOx_ANEN） (816)41.9.11GPIO输入低阈值配置寄存器（GPIOx_VILR） (817)41.9.12EXTI输入选择寄存器0（GPIO_EXTISEL0） (817)41.9.13EXTI输入选择寄存器1（GPIO_EXTISEL1） (819)41.9.14EXTI边沿选择和使能寄存器0（GPIO_EXTIEDS0） (820)41.9.1EXTI边沿选择和使能寄存器1（GPIO_EXTIEDS1） (821)41.9.2EXTI数字滤波控制寄存器（GPIO_EXTIDF） (822)41.9.3EXTI中断标志（GPIO_EXTIISR） (822)41.9.4EXTI输入信号寄存器（GPIO_EXTIDI） (823)41.9.5FOUT配置寄存器（GPIO_FOUTSEL） (823)41.9.6WKUP控制寄存器（GPIO_PINWKEN） (824)42专用编程接口 (826)42.1概述 (826)42.2编程器使用 (826)43调试支持 (827)43.1概述 (827)43.2D EBUG引脚 (828)43.2.1SWD引脚 (828)43.2.2上拉电阻 (828)43.3SWD接口协议 (829)43.3.1协议简介 (829)43.3.2传输序列 (829)43.3.3SW-DP ID code (830)43.3.4主机读操作 (830)43.3.5主机写操作 (831)43.4SWD-DP寄存器 (832)43.4.1寄存器列表 (832)43.5C ORE DEBUG寄存器 (832)43.6低功耗调试支持 (832)43.7D EBUG相关的配置项 (833)43.8寄存器 (833)43.8.1系统模式配置寄存器 (833)43.8.2MCU DEBUG配置寄存器 (834)43.8.3HardFault查询寄存器 (835)44器件签名信息 (837)44.1存储器容量查询 (837)44.2器件UID (838)版本列表 (839)上海复旦微电子集团股份有限公司销售及服务网点 (840)。

名将电控说明书系统概述电控系统控制全线有四个控制柜组成：电源驱动控制柜、前处理控制柜两个以及烘干固化控制柜组成。

其中电源驱动控制柜给整个电控系统配电，前处理控制柜控制各个喷林泵、排风机、液槽温度、三个燃烧机，烘干固化控制柜控制烘干和固化的各个风机以及相应的温度。

系统的操作模式采用面板按钮的形式。

各部分介绍电源驱动控制柜电源控制柜的作用是为整条生产线接通和关断电源，断路器采用上海人民电器厂生产RMM1系列产品，此断路器具有欠压、过载等多种保护功能。

驱动为双驱动变频调速系统，采用自主研发的调速装置对电机同步进行调节。

本柜具有电压、电流显示，可以随时观测三相电压及三相电流。

前处理控制柜前处理柜用来控制前处理部分的喷淋泵、热水泵、换热泵等及各热槽的温度.预脱脂和脱脂采用燃烧机直接加热，其控制有槽液的温度和液位同时作用。

当液位低于下限时，燃烧机停且产生声光报警,提醒工作人员及时补充槽液。

另外，各个槽子都有液位计，当液位低于下限时,操作面板上的报警灯就亮.预脱脂和脱脂的槽温度由SR92直接控制燃烧机进行加热，当温度高于上限时就会使燃烧机停,低于下限时要求燃烧机启动。

磷化槽温度是有热水槽间接加热的,当温度低时要求热水换热泵启动,通过换热板加热.而热水槽是有SR91直接控制燃烧机进行热水加热.烘干固化控制柜本柜主要控制烘干室和固化室的温度，采用热风循环加热方式，烘干室4台热风机,而固化室有6台热风机。

由两个SR92温控仪分别控制烘干和固化两台燃烧机一段火和二段火来达到控温目的。

感温头采用Pt100热电阻，温控仪采用日本进口仪表SR-92，用温控仪的高限报警控制燃烧机的一段火，调节输出来控制燃烧机的二段火。

为了提高燃烧头的使用寿命，电路设计了联锁功能，即只有开启所有的热循环风机，才能开启燃烧机电源。

反过来，只有断开燃烧机电源后，并且经过一定的时间约15分钟延迟，热循环风机才能自动停止运行。

启动前注意事项：1、检查输送链，确保其沿线无阻挡等，并检查驱动各急停按钮。

GP1FMV31TK0FGP1FMV31TK0FNotice The content of data sheet is subject to change without prior notice.In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.Fiber Optic Transmitter Square connectorCompact (without mounting hole)With shutter■Applications1. AV equipment(DVD, CD, MD players etc.)2. FPD-TV■Features1. Fiber optic transmitter(Receiver : GP1FMV31RK0F )2. Square connector (JEITA RC-5720B)3. Compact (without mounting hole)4. With shutter function5. Supply voltage : 3 V6. Transfer rate : 15.5 Mb/s■DescriptionGP1FMV31TK0F has a built-in LED with a peak light emission wavelength of 660 nm and the associated drive IC, and the input is TTL level compatible.■Agency approvals/Compliance1. Compliant with JEITA RC-5720B and CP12012. Compliant with RoHS directive (2002/95/EC)■Outline Dimensions(Unit: mm)(Lead root)(Lead root)Internal equivalent circuit Pin arrangement*1Input conditions of V in terminal are designed to conform to TTL and CMOS. We recommend that the input fore V in terminal uses the output of TTL and high speed CMOS.LEDUnspecified tolerance ±0.1Example of mounting drawing form solder side. PCB thickness t = 1.6 mm Production year(Last digit of production year)Production monthModel NumberJan to Sep: 1 - 910 Oct: X 11 Nov: Y 12 Dec: Z3T1[2]Portion markingSymbol Description MaterialA Holder PBT (Color : Black)B Shutter PBT (Color : Black)C Fixing pin SPCC (Lead free plating)DLead pinCu Alloy (SnCu plating)Driver IC1) The connector joint area complies with the square connector JEITA RC-5720B 2) [1] portion : “S” mark, [2] portion : Model No. and date code shall be indicated. 3) Unspecified tolerance shall be ± 0.3.4) Since there are other products which has a different fixing pin shape, please make sure to confirm reference mounting drawing for this device. 5) Dimensions in parenthesis are shown for reference.[1][2]V in V cc GND*1Product mass : approx. 2 g■Absolute Maximum Ratings*1 Solder at a position more than 1.6 mm away from the base of the lead terminal. Reflow is not available.*2 Do not contact top of soldering iron to lead terminal directly.■Recommended Operating Conditions■Electro-optical CharacteristicsParameterSymbol MIN.TYP.MAX.Unit Remark Supply voltageV CC 2.7 3.0 5.25VOperating transfer rateT--15.5Mb/s NRZ signal duty 50%ParameterSymbol Rating Unit Remark Supply voltage V CC -0.5 to +7.0V Input voltageV in -0.5 to V CC +0.5V Operating temperature T opr -20 to +70°C Storage temperature T stg -30 to +80°C260°C 6 s or less/time up to 2 times.4 s or less/time up to 1 time.Soldering by hand at each terminal. *2Soldering temperature *1T sol380°C(T a = 25 °C, V CC = 3 V)ParameterSymbolMIN.TYP.MAX.Unit Peak emission wavelengthλp 630660690nm Output optical power couple into fiber P C -21-18-15dBm Supply current I CC-813mA V CC =3.0V2.3--V CC =5.0V2.9--V CC =3.0V--0.8V CC =5.0V-- 1.3L → H delay time t pLH --180ns H → L delay time t pHL --180ns Pulse width distortion Δt w -15-+15ns JitterΔt j-115nsMeasurement methodrefer to Fig. 3, 4Conditions Measurement method refer to Fig. 1Measurement methodrefer to Fig. 2V V High level input voltage V iH Low level input voltage V iL■Measurement MethodFig. 1 Output Optical Power Coupled Into FiberFig. 2 Input Voltage and Supply CurrentGP1FMV31TK0F Device under testOptical power meter (Anritsu) ML93BV in V cc V ccGND The optical power meter must becalibrated to 660 nm. (0 dBm = 1 mW)Notes1. V cc = 3.0 V (State of operating)2. To bundle up the standard fiber optic cable, make it into a loop with the diameter D = 10 cm or more. (The standard fiber optic cable will be specified elsewhere.)DStandard fiber optic cableV in V inV ccI ccV ccGNDThe optical power meter must becalibrated to 660 nm. (0 dBm = 1 mW)Standard fiber optic cableGP1FMV31TK0F Device under testOptical power meter (Anritsu) ML93BV CC = 5.0 V (State of operating)V CC = 3.0 V (State of operating)Input conditions and judgment methodNo.Input conditions Judgment method1V in = 2.9 V or more-21 ≤ P C ≤ -15 dBm, I CC = 13 mA or less 2V in = 1.3 V or less P C ≤ -36 dBm, I CC = 13 mA or lessNo.Input conditions Judgment method1V in = 2.3 V or more-21 ≤ P C ≤ -15 dBm, I CC = 13 mA or less 2V in = 0.8 V or less P C ≤ -36 dBm, I CC = 13 mA or lessFig. 3 Pulse Response and JitterFig. 4 Input Signal (7.75 Mb/s Bi-phase PRBS Signal)V in V inV ccI ccV ccInputGNDCH1CH2OscilloscopeOscilloscope (band width: 1 GHz)Trigger: CH1Mode: Storage modeStandard fiber optic cableInput signal7.75 Mb/s bi-phase PRBS signalInput signal50%t pLH ∆t jr ∆t jft pHL50%Standard receiver output Standard receiverOutput signal1100GP1FMV31TK0F Device under testNotes(1) The wave form write time shall be 4 s. But do not allow the wave form to be distorted by increasing the brightness too much.(2) V CC = 3.0 V/5.0 V (State of operating)(3) The probe for the oscilloscope must be more than 1 M Ω and less than 10 pF.■Design and Production Notes(1) Stabilization of power supply linePlease put a by-pass capacitor (0.1 μF) close to the device at least within 7 mm of the terminal.Please also put a 4.7 μF capacitor across the power supply line nearby.(2) Soldering conditionSolder at the condition within the absolute maximum ratings in this sheet. In case of using flow soldering, please makesure of the conditions of process at the flow equipment. Also, do not use reflow soldering. In case of soldering by hand,do not contact top of soldering iron to lead terminal directly. (Solder at a position more than 1.6 mm away from the baseof the lead terminal.)(3) About getting dirt and dust in the connector coupling portionIn case dirt or dust comes into the connector coupling portion, please use a blower to take it off.Any rigid rod-like object must not be inserted since into the coupling portion.The internal device might be damaged, resulting deteriorated characteristics.(4) CleaningDo not immerse for cleaning. The solvent would get into the connector coupling portion resulting deterioratedcharacteristics. Should it be necessary to remove the flux, please use one of the following solvents only to be applied withbrush.aSolvent : Isopropyl alcohol, Methyl alcohol(5) Ground during assemblingThe human body and the soldering iron must be grounded against the static breakdown of the device during assembling.Please avoid touching the device terminals as much as possible before assembling.(6) Assembly of the devicePlease fix this device with soldering the metal sheet in PCB. And do not lay the PCB pattern or land for wiring where themetal sheet contacts PCB.(7) Input signalThis product is designed intentionally based upon the signal transmission which is defined by the digital audio interfacestandard ; CP1201. When a signal out of JEITA standard CP-1201 is inputted to this device, there might be a case that thisdevice can not transmit a signal correctly to receiving unit.(8) Fixing pinSince there are other products which has a different fixing pin shape, please make sure to confirm reference mountingdrawing for this device.(9) Damage to connector coupling portionPlease do not stress the connector coupling portion excessively since there might be a case that the shutter can’t operatenormally.(10) About getting the flux into connector coupling portionPlease avoid getting a flux into connector coupling portion of this device, because there might be a case that the characteristics deteriorate the shutter can’t operate normally.■Packing SpecificationsTRAYPRODUCTCrosssection of trayPACKING METHOD Each tray holds 200 pieces.PACKING MATERIAL Tray : Polystyrene PRODUCT●Presence of ODC etc.This product shall not contain the following materials.And they are not used in the production process for this product.Regulation substances : CFCs, Halon, Carbon tetrachloride, 1.1.1-Trichloroethane (Methylchloroform) Specific brominated flame retardants such as the PBB and PBDE are not used in this product at all. This product shall not contain the following materials banned in the RoHS Directive (2002/95/EC). • Lead, Mercury, Cadmium, Hexavalent chromium, Polybrominated biphenyls (PBB), Polybrominated diphenyl ethers (PBDE).■Important Notices· The circuit application examples in this publication are provided to explain representative applications of SHARP devices and are not intended to guarantee any circuit design or license any intellectual property rights. SHARP takes no responsibility for any problems related to any intellectual property right of a third party resulting from the use of SHARP's devices.· Contact SHARP in order to obtain the latest device specifi-cation sheets before using any SHARP device. SHARP reserves the right to make changes in the specifications, characteristics, data, materials, structure, and other contents described herein at any time without notice in order to improve design or reliability. Manufacturing locations are also subject to change without notice.· Observe the following points when using any devices in this publication. SHARP takes no responsibility for damage caused by improper use of the devices which does not meet the conditions and absolute maximum ratings to be used specified in the relevant specification sheet nor meet the following condi-tions:(i) The devices in this publication are designed for use in general electronic equipment designs such as:--- Personal computers--- Office automation equipment--- Telecommunication equipment [terminal]--- Test and measurement equipment--- Industrial control--- Audio visual equipment--- Consumer electronics(ii) Measures such as fail-safe function and redundant design should be taken to ensure reliability and safety when SHARP devices are used for or in connection with equipment that requires higher reliability such as:--- Transportation control and safety equipment (i.e.,aircraft, trains, automobiles, etc.)--- Traffic signals--- Gas leakage sensor breakers--- Alarm equipment--- Various safety devices, etc.(iii) SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as:--- Space applications--- Telecommunication equipment [trunk lines]--- Nuclear power control equipment--- Medical and other life support equipment (e.g.,scuba).· If the SHARP devices listed in this publication fall within the scope of strategic products described in the Foreign Exchange and Foreign Trade Law of Japan, it is necessary to obtain approval to export such SHARP devices.· This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved. Under the copy-right laws, no part of this publication may be repro-duced or transmitted in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is also required before any use of this publication may be made by a third party.· Contact and consult with a SHARP representative if there are any questions about the contents of this publication.。

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