SI3590DV中文资料

Agilent U1190 Series Clamp Meters Data SheetAgilent’s U1190 Series clamp meters are packed with a wealth of features to help you work more conveniently and more safely. Designed in a robust case—the unique wire separator makes it easy to measure individual wires in a bundle. The built-in LED flashlight illuminates your test area while Vsense performs non-contact voltage detection. What’s more, the U1190 Series clamp meters are CAT III 600 V and CAT IV 300 V certified. Use Agilent U1190 Series clamp meters and retool your expectations in handheld tools.FeaturesThe U1190 Series clamp meters include:• Unique wire separator to separate wires from a bundle• Vsense to perform non-contact voltage detection1• Built-in LED flashlight to illuminate test area1• Visual (backlight alert) and audible continuity indication in noisy environments• Current measurement up to 600 A2• Digital multimeter (DMM) with resistance, capacitance1, DCV, ACV, DCA3, ACA, DCµA3 and ACµA3 measurement capabilities• Continuity and diode test measurements• CAT III 600 V / CAT IV 300 V safety rating1. Exclusive to U1192A, U1193A, and U1194A.2. Exclusive to U1193A and U1194A.3. Exclusive to U1194A.Unique wire separator with abuilt-in flashlightThe U1190 Series clamp meters arebuilt to perform in the environmentsyou work. The unique wire separatorallows you to effortlessly isolate andperform measurements on individualwires in a bundle. For improved vis-ibility when making measurements,these clamp meters also come withan easily activated built-in LEDflashlight that illuminates the testarea. These features ensure that youare better equipped when makingmeasurements.Vsense for non-contact voltagedetectionThe U1190 Series clamp metershave Vsense—a unique method ofnon-contact voltage detection thatsafeguards users from exposureto hot or live wires while makingmeasurements in dangerous workingenvironments. Upon the detection ofvoltage, a unique safety alert of anaudible beeper is produced to alertusers.Ergonomically built with currentmeasurement up to 600 AErgonomically built, the U1190 Seriesclamp meters fit comfortably in thepalm of your hand and allow you toselect measurement functions withjust a simple thumb press. Betteryet, the U1193A and U1194A comewith a current measurement up to600 A. The wide range of currentmeasurement functions cover anarray of applications such as electri-cal installation, maintenance, andtroubleshooting tasks—making it anideal tool to use across many indus-trial applications.Figure 1. The unique wire separatorallows you to separate and measureindividual wires more easilyTake a Closer LookUnique wire separator to separate and clamp wires from a bundleData Hold, Min, or Max recording capabilityLCD display with maximum reading of 6,000 countsBacklight display and built-in LED flashlight1Figure 2. Built-in LED flashlight to illuminate test areaVsense performs non-contact voltage detection 1, DCµA 2, and ACµA 2 currentmeasurements1. Exclusive to U1192A, U1193A, and U1194A.2. Exclusive to U1194A.Capacitance/Diodetest measurements Resistance/ContinuitymeasurementsDCV, ACV, DCA 2, ACA, and frequency measurementcapabilitesModel ComparisonSpecification assumptions:Accuracy is given as ± (% of reading + counts of least significant digit) at 23 °C ± 5 °C, with relative humidity less than 80% RH. AC voltage and AC current specifications for U1193A and U1194A are AC coupled, true rms and are valid from 5% of range to 100% of range. The crest factor may be up to 3.0 at 4,000 counts. For non-sinusoidal waveforms, add additional accuracy of (2% reading + 2% full scale) typically. In the EMC RF field of 3 V/m, total accuracy is specified as specified accuracy + 30 digits for all functions.DC specificationsNotes for DC voltage specification:1. Input impedance of 10 MΩ.Notes for resistance specifications:1. Overload protection: 600 Vrms for short circuits with < 0.1 mA current.2. Maximum open voltage is < 1.4 V.3. The accuracy is specified after the Relative function is used to subtract the test lead resistance and thermal effect (by shorting the test leads). Notes for diode specifications:1. Overload protection: 600 Vrms for short circuits with < 0.4 mA current.2. Maximum open voltage is 1.8 V.3. Built-in buzzer beeps continuously when the voltage measured is less than 100 mV and beeps once for forward-biased diode or semiconductorjunctions measured between 0.3 and 0.8 V (0.3 V ≤ reading ≤ 0.8 V).Notes for DC current specifications:1. DC current measurement is only available for U1194A model.2. 60 to 600 A ranges are from clamp current measurement. 60 to 600 µA ranges are from digital multimeter measurement.3. Overload protection for 60 to 600 A range: 600 Arms.4. Position error: 1% from reading.5. Use Relative mode to zero residual offset.AC voltage specification60 V0.01 V— 1.2% + 5600 V0.1 V 1.2% + 5 1.2% + 5Notes for AC voltage:1. Input impedance 10 MΩ (nominal) in parallel with < 100 pF.2. Frequency response: 45 to 500 Hz (sine wave).AC current specification60 µA0.01 µA—————— 1.0% + 5 1.0% + 5 600 µA0.1 µA—————— 1.0% + 5 1.0% + 5 60 A0.01 A—— 2.0% + 5 3.0% + 5 2.0% + 5 3.0% + 5 2.0% + 5 3.0% + 5 400 A0.1 A 2.0% + 5 3.0% + 5 2.0% + 5 3.0% + 5————600 A0.1 A———— 2.0% + 5 3.0% + 5 2.0% + 5 3.0% + 5 Notes for AC current:1. Frequency response: 45 to 500 Hz (sine wave).2. Position error: 1% of reading.3. AC conversion type for U1191A and U1192A: Average sensing, RMS indication.4. AC conversion type for U1193A and U1194A: RMS sensing, RMS indication.5. Maximum overload: 400 A RMS.6. For non-sinusoidal waveform, add additional accuracy of (2% reading + 2% full scale) typically for crest factor ≥ 3.0.Capacitance specifications6 mF0.001 mF— 2.0% + 4Notes for capacitance specifications:1. Capacitance measurement is not available with U1191A model.2. Overload protection: 600 Vrms for short circuits with < 0.1 mA current.3. The accuracy for all ranges is specified based on a film capacitor or better, and use Relative mode.Temperature specificationsK –40 to 400 °C0.1 °C 1.0% + 2.0 °C 400 to 1,200 °C 1.0 °C 1.0% + 2.0 °C –40 to 752 °F0.1 °F 1.0% + 3.6 °F 752 to 2,192 °F 1.0 °F 1.0% + 3.6 °FNotes for temperature specifications:1. Temperature measurement is only available with the U1194A model.2. The accuracy does not include the tolerance of the thermocouple probe, and the meter should be put on a place that has been operating for aminimum of one hour.3. Do not allow the temperature sensor to contact a surface that is energized above 30 Vrms or 60 V DC. Such voltage poses a shock hazard.4. The temperature calculation is specified according to the safety standards of EN/IEC-60548-1 and NIST175.5. Accuracy specification assumes the surrounding temperature is stable with ±1 °C. For the surrounding temperature changes of ±3 °C, rated accuracyapplies after two hours.Frequency specifications99.99 Hz0.01 Hz0.5% + 3999.9 Hz0.1 Hz0.5% + 39.999 kHz0.001 kHz0.5% + 399.99 kHz0.01 kHz0.5% + 3Notes for frequency specifications:1. Exclusive to U1192A, U1193A, and U1194A.2. Overload protection: 600 V.3. Minimum frequency is 10 Hz.Frequency Sensitivity Specifications60 V 6.0 V30 V600 V60 V60 V60 A 6.0 A600 A60 AContinuity specifications600 Ω0.1 Ω0.8% + 50.8% + 50.8% + 50.8% + 30.1 mA Notes for continuity specifications:1. Overload protection: 600 Vrms for short circuits with < 0.1 mA current.2. Maximum open voltage is 1.4 V.3. Built-in buzzer beeps continuously when the reading measured is less than 30 Ω and does not beep when the measured resistance is more than200 Ω. Buzzer may either sound or not between 30 Ω and 200 Ω.4. Continuity indicator: 2.7 kHz tone buzzer.Measuring rate (approximate)AC V3333DC V3333Ω2222Diode3333Capacitance— 2 times/second for 600 µF1 time/9 seconds for 6 mF2 times/second for 600 µF1 time/9 seconds for 6 mF2 times/second for 600 µF1 time/9 seconds for 6 mFTemperature———2DC A———3AC A3333 Frequency— 3 (> 10 Hz) 3 (> 10 Hz) 3 (> 10 Hz)Product CharacteristicsPower supplyBattery type 2 x 1.5 V AAA Alkaline batteryBattery life• Approximately 40 hours with backlight on• Approximately 200 hours with backlight off and continuous DC voltage measurementPower consumption• Approximately 9 mVA with backlight off and DC voltage measurement• Approximately 42 mVA with backlight on and DC voltage measurementDisplay Liquid crystal display (LCD) (with maximum reading of 6,000 counts)Operating environment• Operating temperature from –10 to 50°C, 0 to 80% RH• Altitude up to 2,000 meters• Pollution degree IIRelative humidity (RH)Relative humidity up to 80% RH for temperature up to 30 °C decreasing linearly to 50% RH at 50 °C Storage compliance–40 to 60 °C, 40% to 80% RH without batteriesSafety compliance• Low Voltage Directive (2006/95/EC)• IEC 61010-1:2001/EN 61010-1:2001• IEC 61010-2-032:2002/EN 61010-2-032:2002• CAN/CSA-C22.2 No. 61010-1-04• CAN/CSA-C22.2 No. 61010-2-032-04• ANSI/UL Std No. 61010-1:2004Measurement category CAT III 600 V / CAT IV 300 VElectromagnetic compatibility (EMC)• EMC Directive (2004/108/EC)• I EC 61326-1:2005/EN61326-1:2006• Canada: ICES/NMB-001: Issue 4, June 2006• Australia/New Zealand: AS/NZS CISPR 11:2004Temperature coefficient0.1 x (specified accuracy)/°C (from 0 to 18 °C, or 28 to 50 °C)Common mode rejection ratio (CMRR)> 60 dB at 50/60 Hz in the AC V function> 120 dB at DC, 50/60 Hz in the DC V functionDimensions (W x H x D)U1191/2A: 77.1 x 225.0 x 38.6 mmU1193/4A: 77.1 x 238.0 x 38.6 mmWarranty1• Three years for product• Three months for product’s standard accessories (unless otherwise specified) Weight (with batteries)U1191/2A: 320 gU1193A: 334 gU1194A: 348 gCalibration cycle One yearNotes:1. Please refer to /go/warranty_terms.Please note that for the product, the warranty does not cover:◦Damage from contamination◦Normal wear and tear of mechanical components◦Manuals, fuses, and batteriesOrdering InformationStandard shipped itemsCertificate of calibrationQuick Start GuideK-type thermocouple (only for U1194A)1.5 V AAA Alkaline batterySoft carrying caseTest leads with 4-mm tipsRecommended accessoriesU1162A Alligator clipsU1163A SMT grabbersU1164A Fine tip test probesU1168A Standard test lead kitU1178A Soft carrying caseU1181A Immersion temperature probeU1182A Industrial surface temperature probe U1183A Air temperature probeU1184A Temperature probe adaptorU1186A K-type thermocouple extension grade U1188A K-type thermocouple gradeRevised: June 8, 2011Product specifications and descriptions in this document subject to change without notice.© Agilent Technologies, Inc. 2011Published in USA, October 5, 20115990-8646EN。

Specifi cations are subject to change without notice.Customers should verify actual device performance in their specifi c applications.*RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011.Stop Strength..............................................................................................................................................................................45 N-cm (64 oz.-in.) minimum Mechanical Angle ...........................................................................................................................................................................................3600 ° +10 °, -0 °Torque (Starting & Running) ................................................................................................................................0.35 N-cm (0.5 oz.-in.) maximum (unsealed) 1.1 N-cm (1.5 oz.-in.) maximum (sealed) Mounting ..............................................................................................................................................................................55-80 N-cm (5-7 lb.-in.) (plastic) 90-113 N-cm (8-10 in.-lb.) (metal)Shaft Runout......................................................................................................................................................................................0.13 mm (0.005 in.) teral Runout ...................................................................................................................................................................................0.20 mm (0.008 in.) T.I.R.Shaft End Play ...................................................................................................................................................................................0.25 mm (0.010 in.) T.I.R.Shaft Radial Play ...............................................................................................................................................................................0.13 mm (0.005 in.) T.I.R.Pilot Diameter Runout .......................................................................................................................................................................0.08 mm (0.003 in.) T.I.R.Backlash ............................................................................................................................................................................................................1.0 ° maximum Weight ........................................................................................................................................................................................................Approximately 19 G Terminals ................................................................................................................................................................................................Solder lugs or PC pins Soldering ConditionManual Soldering...........................................................96.5Sn/3.0Ag/0.5Cu solid wire or no-clean rosin cored wire; 370 °C (700 °F) max. for 3 seconds Wave Soldering ...................................................................................96.5Sn/3.0Ag/0.5Cu solder with no-clean fl ux; 260 °C (500 °F) max. for 5 seconds Wash processes .......................................................................................................................................................................................Not recommended Marking .....................................Manufacturer’s name and part number, resistance value and tolerance, linearity tolerance, wiring diagram, and date code.Ganging (Multiple Section Potentiometers) ......................................................................................................................................................1 cup maximum Hardware ............................................................................................................One lockwasher and one mounting nut is shipped with each potentiometer.NOTE: For Anti-rotation pin add 91 after confi guration dash number. Example: -2 becomes -291 to add AR pin.1At room ambient: +25 °C nominal and 50 % relative humidity nominal, except as noted. 2Consult manufacturer for complete specifi cation details for resistances below 1k ohms.BOLDFACE LISTINGS ARE IN STOCK AND READILY AVAILABLETHROUGH DISTRIBUTION. FOR OTHER OPTIONS CONSULT FACTORY.ROHS IDENTIFIER: L = COMPLIANTRecommended Part Numbers(Printed Circuit)(Solder Lug)(Solder Lug)Resistance (Ω)Resolution (%)3590P-2-102L 3590S-2-102L 3590S-1-102L 1,000.0293590P-2-202L 3590S-2-202L 3590S-1-202L 2,000.0233590P-2-502L 3590S-2-502L 3590S-1-502L 5,000.0253590P-2-103L 3590S-2-103L 3590S-1-103L 10,000.0203590P-2-203L 3590S-2-203L 3590S-1-203L 20,000.0193590P-2-503L 3590S-2-503L 3590S-1-503L 50,000.0133590P-2-104L3590S-2-104L3590S-1-104L100,000.009*Ro H S C O MP L I A N T/Panel Thickness Dimensions(For Bushing Mount Only)1.60 +.08/-.03(.063 +.003/-.001)DIA.ANTI-ROTATION PINAnti-rotation pin hole is shown at six o'clockposition for reference only. The actual location isdetermined by the customer's application. Referto the front view of the potentiometer to see thelocation of the optional A/R pin.Panel thickness and hole diameters arerecommended for best fit. However, customersmay adjust the dimensions to suit their specificapplication.Product DimensionsSpecifi cations are subject to change without notice.Customers should verify actual device performance in their specifi c applications.REV. 06/12 MOUNTING SURFACE-2, -4, -6, -8 Confi gurations-1, -3, -5, -7 Confi gurationsRecommended PCB LayoutHOLE DIAMETER5.08(.200)5.08(.200)6.99(.275)SchematicTOLERANCES: EXCEPT WHERE NOTED.508 .127DECIMALS: .XX ±(.02),.XXX ±(.005)FRACTIONS: ±1/64MMDIMENSIONS:(IN.)Shaft & Bushing Confi gurations(Bushing - DxL, Shaft - D):(-1) Plastic Bushing (3/8 ” x 5/16 ”)and Shaft (.2480 + .001, - .002)(-2) Metal Bushing (3/8 ” x 5/16 ”)and Shaft (.2497 + .0000, - .0009)(-3) Sealed, Plastic Bushing (3/8 ” x 5/16 ”)and Shaft (.2480 + .001, - .002)(-4) Sealed, Metal Bushing (3/8 ” x 5/16 ”)and Shaft (.2497 + .0000, - .0009)(-5) Metric, Plastic Bushing (9 mm x 7.94 mm)and Shaft (6 mm + 0, - .076 mm)(-6) Metric, Metal Bushing (9 mm x 7.94 mm)and Shaft (6 mm + 0, - .023 mm)(-7) Metric, Sealed, Plastic Bushing (9 mm x7.94 mm) and Shaft (6 mm + 0, - .076 mm)(-8) Metric, Sealed, Metal Bushing (9 mm x7.94 mm) and Shaft (6 mm + 0, - .023 mm)Terminal Styles“P” Terminal Style“S” Terminal Style/分销商库存信息:BOURNS3590S-2-502L3590S-2-102L3590S-2-103L 3590S-2-203L3590S-1-502L3590S-2-104L 3590S-1-203L3590S-2-501L3590S-2-202L 3590S-1-503L3590S-2-503L3590S-1-104L 3590S-291-102L3590S-291-203L3590S-291-502L 3590S-1-201L3590S-1-501L3590S-2-101L 3590S-2-201L3590P-1-102L3590P-1-103L 3590P-1-201L3590P-1-502L3590S-1-102L 3590S-1-103L3590S-2-252L3590P-291-501L 3590P-2-102L3590P-2-201L3590P-2-203L 3590P-2-502L3590S-1-202L3590S-6-102L 3590S-6-201L3590S-6-202L3590S-6-203L 3590S-6-501L3590P-1-104L3590S-6-502L 3590S-4-102L3590S-4-103L3590S-4-202L 3590S-4-203L3590S-4-502L3590S-8-102L 3590S-8-103L3590S-8-202L3590P-2-104L 3590P-4-103L3590P-4-202L3590S-6-503L 3590S-6-104L3590S-4-104L3590P-4-503L 3590P-4-104L3590S-2-5023590S-1-102 3590S-1-1033590S-1-1043590S-1-203 3590S-1-5023590S-1-5033590S-2-102 3590S-2-1033590S-2-1043590S-2-203 3590S-2-5033590S-1-2023590S-2-202 3590S-2-501。

LF355/356/357 JFET输入型运算放大器——中文数据手册--by LF邮箱：fxfjy89123@整体描述:这些是第一个合成的JFET输入的运算放大器，它把匹配的高电压的JFET晶体管和标准的双极性晶体管放到了一块芯片上（双极FET技术）。

这些运放的特征是低输入失调和偏置电流、低偏置电压和偏置电压漂移、可以进行偏置调节而不会降低漂移和共模抑制比。

这些运放也设计有高压摆率、宽带宽、极快的建立时间、低电压电流噪声。

特征：优点--代替昂贵的混合型和模块型FET运算放大器--低噪声应用性能优异——高或低的输入源阻抗均可--偏置可调不会像其他合成型运放降低漂移和共模抑制比--新的输出阶段可以接入大的电容负载（5000pF）不会出现稳定性问题--内部补偿和可承受大的差分输入电压应用：--精密高速积分器--快速模/数和数/模转换器--高阻抗缓冲保护--宽带、低噪、低漂移放大器--对数放大器--光电放大器--采样保持电路共同特性：--低输入失调电流——30pA--低输入偏置电流——3pA--高输入阻抗——10的12次方Ω--低输入噪声电流——0.01pA/sqrt(Hz)--高共模抑制比——100dB--高直流增益——106dB不同特性：--极快的建立时间——5系列4us，6系列7系列1.5us--快速的压摆率——5系列5V/us，6系列12V/us，7系列50V/us--宽增益带宽——5系列2.5MHz，6系列5MHz，7系列20MHz--低输入噪声电压——5系列20nV/sqrt(Hz)，6系列7系列12nV/sqrt(Hz)供电电压：±15V典型电路连接：Vos调节--Vos用一个25k的电位器调节--电位器中间调节端连到V+驱动容性负载--对于LF155/6 R=5k--对于LF357 R=1.25k--由于独特的输出平台设计，这些放大器能够驱动大的容性负载并且能保持稳定性。

Cl（MAX）≈0.01uF--建立时间（Ts）≈5us大功率带宽放大器--小于等于1%的失真度，20V峰峰值的输出抖动，功率带宽为500kHz建立时间测试电路--LF155/6连接成单位增益变频器来测试建立时间，LF357连接使得Av=-5--FET用来隔离探头的电容--输出10V步进--对于LF357来说Av = -5宽带低噪低漂移放大器--寄生输入电容C1≈（LF355是3pF，LF356和LF357要加上额外的布局电容）和反馈因素相互作用产生高频极点。

82357A technical specificationsGeneral requirementsMinimum system requirements Windows 98(SE)/Me 2•PCI IEEE-488 interface for PCs•Transfer rates up to 900 KB/s•Dual processor support onWindows 2000/XPBest for•Maximum GPIB throughput forall configurationsHigh performance for manufacturingtest applicationsThe 82350B is Agilent’s highest-performance GPIB interface. Witha direct PCI computer connection,transaction overhead is minimizedfor the best overall performance.The 82350B card de-couples GPIBtransfers from PCI bus transfers.Buffering provides I/O and systemperformance that is superior to directmemory access (DMA). The hardwareis software configurable and compati-ble with the Plug-and-Play standardfor easy hardware installation. TheGPIB interface card plugs into a 5 voltPCI slot in the backplane of your PC.For programming capability youhave access with the latest versionof IO Libraries suite, version 14.1, toprogram in all standard developmentenvironments. Agilent’s IO LibrariesSuite 14.1 is easy to use and workswith virtually any vendor’s instrumentor T&M programming softwareapplication and includes automaticconfiguration for Agilent or NI VISA,NI-488.2, VISA COM or T&M ToolkitDirect IO. Even if you use NI IO soft-ware Agilent will configure automati-cally so as a user you do not have tobe concerned with the behind-the-scenes details.382350B technical specifications General requirements Minimum system requirements Windows 98(SE)/Me (note 98 supported with version 14.0 only)/2000/XP Software required Agilent IO Libraries Suite (included); see requirements on page 1PCI bus slot 5-V PCI slot, 32 bits Supported standards PCI rev 2.2IEEE 488.1 and IEEE 488.2 compatible General characteristics Power Backplane +5 V PCI Connectors Standard 24-pin GPIB (IEEE-488)+5V PCI Maximum data rate More than 900 KB/s Maximum instrument connection 14 instruments—daisy chain via GPIB Buffering Built-in Configuration Plug-and-Play EMC and safety *IEC 61326-1Group 1, Class A IEC 61010-1Warranty 1 year Dimensions Length, width, and height 122 mm (L) x 122 mm (W) x 22 mm (H) (a full-height PCI card)Weight 0.091 kg Environmental specifications Operating environment 0°C to 55°C Operating humidity Up to 90% at 40°C non-condensing Storage environment -40°C to +70°C Storage humidity Up to 90% at 65°C non-condensing * Additional detail and information in the Declaration of ConformityThis traditional GPIB connection still offers the highest throughputE5810A technical specifications 45USB port on your PC to up to fourRS-232 instruments or devices•Fully compatible with WindowsCOM driver and industry-standardVISA I/O software.Best for•Easy connection to RS-232 devices•Notebook computer RS-232connectionsAdd four serial ports in minutesThe Agilent E5805A USB/4-portRS232 interface provides a directconnection from the USB port onyour notebook or desktop PC to up tofour RS-232 instruments or devices.There are no switches to set, no PCcards to install, and no external powersupplies are required. Simply installthe driver and plug in the E5805AUSB 4-port RS232 interface to addfour RS-232 ports to your computer.Since the E5805A is a standardPlug-and-Play device, your computerautomatically detects and configuresit when it is connected to your com-puter USB port. You can interface upto four devices, with baud rates up to230 Kb/s per serial port. The E5805Aprovides four DB9 serial connectorsand ships with a 1.8-meter USB cable.E5813A technical specificationsGeneral requirements67Agilent Technologies’ Test and Measurement Support, Services, and Assistance Agilent Technologies aims to maximize the value you receive, while minimizing your risk and problems. We strive to ensure that you get the test and measurement capabilities you paid for and obtain the support you need. Our extensive support resources and services can help you choose the right Agilent products for your applications and apply them successfully. Every instru-ment and system we sell has a global warranty. Support is available for at least five years beyond the production life of the product. Two concepts underlie Agilent’s overall support policy: “Our Promise” and “Your Advantage.”Our Promise Our Promise means your Agilent test and measurement equipment will meet its advertised performance and functionality. When you are choosing new equipment,we will help you with product information, including realistic performance specifications and practical recom-mendations from experienced test engineers. When you receive your new Agilent equipment, we can help verify that it works properly, and help with initial product operation.Your AdvantageYour Advantage means that Agilent offers a wide range of additional expert test and measurement services, which you can purchase according to your unique technical and business needs. Solve problems efficiently and gain a competitive edge by contracting with us for calibration, extra-cost upgrades, out-of-warranty repairs, and onsite education and training, as well as design, system integration, project management, and other professional engineering services. Experienced Agilent engineers and techni-cians worldwide can help you maximize your productivity,optimize the return on investment of your Agilent instruments and systems, and obtain dependable measurement accuracy for the life of those products./find/emailupdates Get the latest information on the products and applications you /find/openAgilent Open simplifies the process of connecting and programming test systems to help engineers design,validate and manufacture electronic products. Agilentoffers open connectivity for a broad range of system-ready instruments, open industry software, PC-stan-dard I/O and global support, which are combined to more easily integrate test system development. For more assistance with your test & measurement needs or to find your local Agilent office go to /find/contactus Microsoft, Windows and Visual Studio are U.S. registered trademarks of Microsoft Corporation.Pentium is a U.S. registered trademark of Intel Corporation.Product specifications and descriptions in this document subject to change without notice.© Agilent Technologies, Inc. 2005Printed in USA, August 5, 20055989-1889EN Agilent Open Agilent Email Updates •Agilent E2094N IO Libraries Suite, Data sheet pub no. 5989-1439EN •Modern Connectivity–Using USB and LAN I/O Converters, Application note 1475-1pub no. 5989-0123EN •Simplified PC Connections for GPIB Instruments,Application note 1409-1, pub no. 5988-5897EN •Using LAN in Test Systems: The Basics,Application note 1465-9, pub no. 5989-1412ENpub no. 5989-1417EN •Computer I/O Considerations, Application note 1465-2, pub no. 5988-9818EN Learn more at /find/io-ds Join the Agilent Developer Network to get updated I/O software, instrument drivers, code examples,white papers, and more! 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Grand Rapids, Michigan, U.S.A. 49504-5298USER’S OPERATING AND INSTRUCTION MANUAL ArrayMODEL 702-NMODEL 702-NSSBUN SLICERS0702S20000-CVMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSSPECIFICATIONSDESCRIPTIONThese bun slicers have welded steel frames and stainless steel chutes. They are compact, durable slicers for counter top use in slicing a variety of buns with speed and economy.SPECIFICATIONS• Machine dimensions: Model 702-N• Machine dimensions: Model 702-NSEMODEL 702-N, 702-NSE and 702-NSS BUN SLICERS • Machine dimensions: Model 702-NSS• Weight: Approximately (70) pounds.• Standard Color: Gloss white enamel.•Standard Electrical Service:1/3 HP, 1725 RPM, 1-60-115 Volts AC, 6 Amps.•Optional Electrical Services:1/3 HP, 1725 RPM, 1-60-230 Volts AC, 3.5 Amps.1/3 HP, 1425 RPM, 1-50-220 Volts AC, 3.5 Amps.PRODUCT CAPACITIES•Maximum Product Size:4-7/8 inches Wide and 3 inches High•Blade Height (adjustable):5/8 inch to 1-1/2 inches•Maximum Cutting Depth:4-3/8 inchesMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSSAFETY INSTRUCTIONSEvery effort has been made by Oliver Products Company to provide you with a safe machine. It is essential, however, that machine operators and maintenance personnel observe the following safety precautions.1. Before attempting to operate your slicer read this manual. Never allow an untrainedperson to operate this machine.2. Make sure that the machine is only connected to a properly grounded electricalsupply source of sufficient capacity for the load the slicer will put on it. Alwaysunplug the machine when it is not in use.3. Always make sure the machine has been disconnected from the power supplybefore cleaning or servicing.4. Never stick your hand or any other objects into either end of the chute. Keep yourhands away from the moving parts of the machine.5. Never attempt to adjust or service this machine until your are SURE the blade hasstopped.6. Always make sure the knife is not rubbing or hitting any metal components before re-starting the machine.7. All guards must be in place before starting the machine.8. Handle knife blades with care. Do not touch the moving knife.9. Use only proper replacement parts.10. In addition to these general safety instructions, also follow the more specific safetyinstructions given for the different areas of the machine in the operating instructions.GENERALDEFINITIONSThe use of the words WARNING, CAUTION, and NOTE in this manual should be guided by the following.WARNINGAN OPERATING PROCEDURE, TECHNIQUE, ETC., WHICH MAYRESULT IN PERSONAL INJURY IF NOT CAREFULLY FOLLOWED.CAUTIONAN OPERATING PROCEDURE, TECHNIQUE, ETC., WHICH MAYRESULT IN DAMAGE TO EQUIPMENT IF NOT CAREFULLY FOLLOWED.NOTEAN OPERATING PROCEDURE, TECHNIQUE, ETC., WHICH IS CONSIDERED ESSENTIAL TO EMPHASIZE.MODEL 702-N, 702-NSE and 702-NSS BUN SLICERSADJUSTMENTSWARNINGNEVER ATTEMPT TO ADJUST OR SERVICE THIS MACHINE UNTILYOU ARE SURE THE BLADE HAS STOPPED.OUTSIDE SIDE GUIDEThis guide is used to determine the amount of "Hinge" left on the product and can beadjusted from leaving approximately a 1/2" hinge to a complete sever.The guide is adjusted by loosening the two knobs which are below and to the outside ofthe table and by sliding the guide in or out to generate the desired amount of hinge. Re-tighten the knobs when the guide is in the desired location.CAUTIONMAKE SURE THAT THE BLADE IS NOT HITTING ANY OF THE OTHER COMPONENTS BEFORE RE-STARTING THE MACHINE.TABLE HEIGHT ADJUSTMENTThe table can be adjusted so that the height of the blade above the table is between 5/8"and 1-1/2".To change the height of the blade loosen the large knob on the front corner of themachine's base below the table. Once loosened the thumb screw below the table canbe rotated clockwise to increase the table height (decrease bottom slice thickness),or rotated counter clockwise to decrease table height, (increase bottom slice thickness).Once the desired slice thickness is achieved re-tighten the large knob on the corner ofthe base to secure the table in the new position.CAUTIONMAKE SURE THAT THE BLADE IS NOT HITTING ANY OF THE OTHER COMPONENTS BEFORE RE-STARTING THE MACHINE.INSIDE SIDE GUIDEGenerally it is best to leave the inside guide adjusted to the maximum opening, this willallow the product to pass through uninhibited for maximum slicing speed. However,some products will require its use to reduce jamming.page)nexton(continuedMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSIf it seems necessary to adjust this guide loosen the two knobs which are on the top and to the inside of the table, then slide the guide in or out to conform with product width. Make a liberal adjustment to allow for product variances. Re-tighten the knobs to secure it in the desired position.SLOW-DOWN DOOR ADJUSTMENT (Model 702-N only)On the discharge end of the chute you will find a small adjustable door used to slow the product as it exits the blade. Generally heavier products require a lower door setting while lighter products require less restriction. The door is raised by turning the thumb screw in a clockwise direction. Turning the screw in the opposite direction will lower the door.Normally if a bun should stop beneath the door the next bun should dislodge it, if it does not then the door should be adjusted to provide less restriction.WARNINGNEVER STICK YOUR HAND OR ANY OTHER OBJECT INTO EITHEREND OF THE CHUTE. ALWAYS KEEP YOUR HANDS AWAY FROMTHE MOVING PARTS OF THE MACHINE.MODEL 702-N, 702-NSE and 702-NSS BUN SLICERSOPERATING INSTRUCTIONSAfter adjustments for product width and bottom slice height have been made, (see adjustment section), you are ready to begin slicing your product.Start the motor by turning the switch to the "ON" position, then place the product on the chute and allow it to slide into the blade, (do not throw the product into the machine). If the buns resist sliding freely into the blade simply use one or more additional buns to advance the first into slicing position.WARNINGNEVER STICK YOUR HAND OR ANY OTHER OBJECT INTO EITHEREND OF THE CHUTE. KEEP YOUR HANDS AWAY FROM THE MOVINGPARTS OF THE MACHINE.CAUTIONNEVER PLACE A PRODUCT IN THE MACHINE BEFORE STARTING THEMOTOR. THIS MAY PREVENT THE KNIFE FROM ROTATING ANDCAUSE MOTOR DAMAGE.On Model 702-N machines, should the sliced bun stop under the discharge door, the next bun through the blade will generally dislodge it. If this does not happen, re-adjust the slow down door or inside guide, see adjustment section of this manual.MODEL 702-N, 702-NSE and 702-NSS BUN SLICERSMAINTENANCE/CLEANING/LUBRICATIONWARNINGNEVER ATTEMPT TO CLEAN OR SERVICE THIS MACHINE UNTIL ITHAS BEEN DISCONNECTED FROM THE POWER SUPPLY AND YOUARE SURE THE BLADE HAS STOPPED. ALSO REMEMBER TO USECARE WHENEVER YOU ARE WORKING NEAR THE BLADE. MAINTENANCEOther than normal cleaning and occasional blade replacement little other regular maintenance is required.CLEANINGUse a mild detergent solution or spray cleaner on all exterior and interior surfaces as necessary. Periodically remove the OUTSIDE GUIDE AND CHUTE GUARD ASSEMBLY and BLADE GUARD, then brush, or vacuum, all foreign material from below the chute and from the blade compartment.•Remove the BLADE GUARD by removing the three knobs which hold it in place. Lift it clear of the machine and set it aside.•Remove the OUTSIDE GUIDE AND CHUTE GUARD ASSEMBLY by loosening both knobs which secure it in place, and then slide the assembly off the machine and set it aside.WARNINGALWAYS USE CARE WHEN HANDLING AND CLEANING THE BLADE.CONTINUEDMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSCLEANING (continued)The BLADE should be cleaned at least daily and may be cleaned in place, the maintenance person should wear cut resistant gloves to prevent injury. More frequent cleaning of the BLADE is required when cutting fruity or sticky breads.CAUTIONATTEMPTING TO SLICE PRODUCT WITH A DIRTY BLADE MAYCAUSE MOTOR OVERLOADS -- CLEAN THE BLADE FREQUENTLY.The BLADE may also be removed for cleaning and is necessary when product is allowed to build up on the BLADE and dry. This may be a problem especially when cutting fruity or sticky breads. See “Changing the Blade” latter in this manual for instruction on how to remove the BLADE.LUBRICATIONNo lubrication is required. The motor is equipped with pre-lubricated sealed bearings which require NO lubrication, DO NOT attempt to oil or grease the motor.MODEL 702-N, 702-NSE and 702-NSS BUN SLICERSCHANGING THE BLADEWARNINGNEVER ATTEMPT TO CLEAN OR SERVICE THIS MACHINE UNTILIT HAS BEEN DISCONNECTED FROM THE POWER SUPPLY ANDYOU ARE SURE THE BLADE HAS STOPPED. ALSO REMEMBERTO USE CARE WHENEVER YOU ARE WORKING NEAR THE BLADE. CHANGING THE BLADE•Remove the BLADE GUARD by removing the three knobs which hold it in place. Lift it clear of the machine and set it aside.•Remove the OUTSIDE GUIDE AND CHUTE GUARD ASSEMBLY by loosening both knobs which secure it in place. Then slide the assembly off the machine and set it aside.•Using a 7/16 inch hex wrench remove the three screws securing the BLADE to the hub and lift the BLADE from the machine.•The BLADE can then be replaced by reversing the above procedure.•When reinstalling the BLADE, make sure that the points on the teeth are pointed in a counter clockwise direction.NOTELOOKING AT THE SHAFT END OF THE MOTOR THE BLADE SHOULDALWAYS ROTATE CLOCKWISE.WARNINGDO NOT START THE SLICER UNTIL ALL GUARDS ARE IN PLACEAND SECURELY FASTENED AND YOU HAVE MADE SURE THATTHE BLADE IS NOT HITTING ANY OF THE METAL PARTS.MODEL 702-N, 702-NSE and 702-NSS BUN SLICERSTROUBLE SHOOTINGWARNINGNEVER ATTEMPT TO CLEAN OR SERVICE THIS MACHINE UNTILIT HAS BEEN DISCONNECTED FROM THE POWER SUPPLY ANDYOU ARE SURE THE BLADE HAS STOPPED.THE SLICER MOTOR WILL NOT START OR WAS RUNNING BUT SUDDENLY STOPPED.•Check to see if the machine's plug was accidentally removed.•If plugged in, is the outlet working? Test it with another, working, small appliance. •Your slicer’s motor is equipped with a thermal overload. Should the motor become overheated it will stop. (See “Resetting the Thermal Overload” below)•If you still can not find the problem have a qualified electrician check the unit's motor and switch.RESETTING THE THERMAL OVERLOAD•To restart the machine allow the motor to cool for approximately one to two hours.Then carefully tip the machine to one side so that you can press the red reset button which is located on the end of the motor. Press the button FIRMLY. Return the machine it’s proper position, connect it to the power supply and attempt to restart the machine.NOTEATTEMPTING TO START THE MACHINE AFTER PRODUCT HAS BEENINSERTED IN THE MACHINE OR ATTEMPTING TO CUT PRODUCTWITH A DIRTY BLADE MAY CAUSE OVERLOADS.MODEL 702-N, 702-NSE and 702-NSS BUN SLICERS ASSEMBLY DRAWING MODEL 702-NMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSREPLACEMENT PARTS LISTITEM NO. PARTDESCRIPTION PART NUMBER001 Frame 0702-0024002 Adapter-Blade 0702-0025005 Screw-Clamp 4560-2510-1104 006 Bushing-Strain Relief 5765-1071 007 Screw-Thumb 3/8-16 x 1-1/2 5843-0545008 Foot-Rubber 5902-0035009 Knife-Scalloped StSt 7107-7053 010 Rod-Threaded Nylon 5/16-18 x 1” 5840-8075021 Guide-Outside (Model 702-N) 0702-0017-002022 Bracket-Outside Guide 0702-0018-001 024 Table (Model 702-N) 0702-0026025 Guard-Overhead (Model 702-N) 0702-0020-002 026 Guide-Inside (Model 702-N) 0702-0019-002027 Screw-Clamp 4560-2508-1106 028 Cap-Neoprene 5106-8920 029 Screw-Thumb 1/4-20 x 1” 5843-0538030 Knob-4 Prong 5911-7034 032 Guard-Blade (Model 702-N) 0702-0022033 Door-Slow Down, Bun 0702-0023033 Door-Slow Down, Bagel 0702-0023-005034 Stop-Table 0702-0032* 040 Cover-Switch & Light 0702-0008-002 041 Cord-Power 1-60-115 VAC 0702-0028*042 Motor 1/3 HP 1-50/60-115/230 6301-1641043 Light-Pilot 115 VAC 5709-0021044 Switch-Rocker 5757-3307045 Pusher – Bagel 0702-0044046 Bracket – Pusher 0702-0045*Part not shownTo obtain Replacement Parts call Oliver Products Company at 1-800-253-3893MODEL 702-N, 702-NSE and 702-NSS BUN SLICERS ASSEMBLY DRAWING MODEL 702-NSEMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSREPLACEMENT PARTS LISTITEM NO. PARTDESCRIPTION PART NUMBER001 Frame 0702-0024002 Adapter-Blade 0702-0025005 Screw-Clamp 4560-2510-1104 006 Bushing-Strain Relief 5765-1071 007 Screw-Thumb 3/8-16 x 1-1/2 5843-0545008 Foot-Rubber 5902-0035009 Knife-Scalloped StSt 7107-7053 010 Rod-Threaded Nylon 5/16-18 x 1” 5840-8075010 Set Screw 5842-6143 021 Guide-Outside (Model 702-NSE) 0702-0017022 Bracket-Outside Guide 0702-0018-001 024 Table (Model 702-NSE) 0702-0026-001 025 Guard-Overhead (Model 702-NSE) 0702-0020026 Guide-Inside (Model 702-NSE) 0702-0019027 Screw-Clamp 4560-2508-1106 030 Knob-4 Prong 5911-7034032 Guard-Blade (Others) 0702-0022-001034 Stop-Table 0702-0032 040 Cover-Switch & Light 0702-0008-002 041 Cord-Power 1-60-115 VAC 0702-0028042 Motor 1/3 HP 1-50/60-115/230 6301-1641043 Light-Pilot 115 VAC 5709-0021044 Switch-Rocker 5757-3307045 Pusher – Bagel 0702-0044046 Bracket – Pusher 0702-0045*Part Not ShownTo obtain Replacement Parts call Oliver Products Company at 1-800-253-3893MODEL 702-N, 702-NSE and 702-NSS BUN SLICERS ASSEMBLY DRAWING MODEL 702-NSSMODEL 702-N, 702-NSE and 702-NSS BUN SLICERSREPLACEMENT PARTS LISTITEM NO. PARTDESCRIPTION PART NUMBER001 Frame 0702-0024002 Adapter-Blade 0702-0025005 Screw-Clamp 4560-2510-1104 006 Bushing-Strain Relief 5765-1071 007 Screw-Thumb 3/8-16 x 1-1/2 5843-0545008 Foot-Rubber 5902-0035009 Knife-Scalloped StSt 7107-7053 010 Rod-Threaded Nylon 5/16-18 x 1” 5840-8075021 Guide-Outside (Model 702-NSS) 0702-0017-001022 Bracket-Outside Guide 0702-0018-001 024 Table (Model 702-NSS) 0702-0026-002 025 Guard-Overhead (Model 702-NSS) 0702-0020-001 026 Guide-Inside (Model 702-NSS) 0702-0019-001027 Screw-Clamp 4560-2508-1106 030 Knob-4 Prong 5911-7034031 Stop-Bread 0702-0021032 Guard-Blade (Others) 0702-0022-001 034 Stop-Table 0702-0032* 040 Cover-Switch & Light 0702-0008-002 041 Cord-Power 1-60-115 VAC 0702-0028*042 Motor 1/3 HP 1-50/60-115/230 6301-1641043 Light-Pilot 115 VAC 5709-0021044 Switch-Rocker 5757-3307045 Pusher – Bagel 0702-0044046 Bracket – Pusher 0702-0045* Part Not ShownTo obtain Replacement Parts call Oliver Products Company at 1-800-253-3893MODEL 702-N, 702-NSE and 702-NSS BUN SLICERSWIRING DIAGRAMSWiring Diagram (1/3 HP, 1Ph, 50/60 Hz, 115 VAC)Diagram No. 0702C12007WARRANTYPARTSOliver Packaging & Equipment Company (Oliver) warrants that if any part of the equipment (other than a part not manufactured by Oliver) proves to be defective (as defined below) within one year after shipment, and if Buyer returns the defective part to Oliver within one year, Freight Prepaid to Oliver’s plant in Grand Rapids, MI, then Oliver, shall, at Oliver’s option, either repair or replace the defective part, at Oliver’s expense.LABOROliver further warrants that equipment properly installed in accordance with our special instructions, which proves to be defective in material or workmanship under normal use within one (1) year from installation or one (1) year and three (3) months from actual shipment date, whichever date comes first, will be repaired by Oliver or an Oliver Authorized Service Dealer, in accordance with Oliver’s published Service Schedule.For purposes of this warranty, a defective part or defective equipment is a part or equipment which is found by Oliver to have been defective in materials workmanship, if the defect materially impairs the value of the equipment to Buyer. Oliver has no obligation as to parts or components not manufactured by Oliver, but Oliver assigns to Buyer any warranties made to Oliver by the manufacturer thereof.This warranty does not apply to:1. Damage caused by shipping or accident.2. Damage resulting from improper installation or alteration.3. Equipment misused, abused, altered, not maintained on a regular basis, operated carelessly, orused in abnormal conditions.4. Equipment used in conjunction with products of other manufacturers unless such use is approvedby Oliver Products in writing.5. Periodic maintenance of equipment, including but not limited to lubrication, replacement of wearitems, and other adjustments required due to installation, set up, or normal wear.6. Losses or damage resulting from malfunction.The foregoing warranty is in lieu of all other warranties expressed or implied AND OLIVER MAKES NO WARRANTY OF MERCHANTABILITY OR FITNESS FOR PURPOSE REGARDING THE EQUIPMENT COVERED BY THIS WARRANTY. Oliver neither assumes nor authorizes any person to assume for it any other obligations or liability in connection with said equipment. OLIVER SHALL NOT BE LIABLE FOR LOSS OF TIME, INCONVENIENCE, COMMERCIAL LOSS, INCIDENTAL OR CONSEQUENTIAL DAMAGES.THIS PAGE WAS INTENTIONALLYLEFT BLANK.WARRANTY PROCEDURE1. If a problem should occur, either the dealer or the end user must contact the Parts andService Department and explain the problem.2. The Parts and Service Manager will determine if the warranty will apply to this particularproblem.3. If the Parts and Service Manager approves, a Work Authorization Number will begenerated, and the appropriate service agency will perform the service.4. The service dealer will then complete an invoice and send it to the Parts and ServiceDepartment at Oliver Products Company.5. The Parts and Service Manager of Oliver Packaging and Equipment Company willreview the invoice and returned parts, if applicable, and approve for payment.THIS PAGE WAS INTENTIONALLYLEFT BLANK.RETURNED PARTS POLICYThis policy applies to all parts returned to the factory whether for warranted credit, replacement, repair or re-stocking.Oliver Packaging and Equipment Company requires that the customer obtain a Return Material Authorization (RMA) number before returning any part. This number should appear on the shipping label and inside the shipping carton as well. All parts are to be returned prepaid. Following this procedure will insure prompt handling of all returned parts.To obtain an RMA number contact the Repair Parts Deptartment toll free at (800) 253-3893. Parts returned for re-stocking are subject to a RE-STOCKING CHARGE.Thank you for your cooperation,Repair Parts ManagerOliver Packaging and Equipment Company。

C i r c u i t b r e a k e r sCircuit breakersTeSys GV, GBC ontrol and P rotection C omponentsChapterB60.75g g 1.1g g 1.5375 2.533.5 LR2 K0308GV2LE071.1g g –––––– 2.533.5 LR2 K0308GV2LE071.5g g 1.5g g 3375451 LR2 K0310GV2LE08––– 2.2g g –––451 LR2 K0312GV2LE082.2g g 3501004375 6.378 LR2 K0312GV2LE103g g 410100 5.537510138 LR2 K0314GV2LE144g g 5.510100–––10138 LR2 K0316GV2LE14––––––7.537510138 LRD 14GV2LE14––––––937514170 LRD 16GV2LE165.515507.56751137514170 LR2 K0321GV2LE167.5155096751537518223 LRD 21GV2LE20915401147518.537525327 LRD 22GV2LE2211154015475–––25327 LRD 22GV2LE2215105018.54752237532416LRD 32GV2LE32(1) As % of Icu.g ) > 100 kA.GV2 LE10D F 526144.t i fC i r c u i t b r e a k e r s0.09––––––0.45LRD 03GV2L030.12g g –––0.37g g 0.638LRD 04GV2L040.18g g ––––––0.638LRD 04GV2L04––––––0.55g g 113LRD 05GV2L050.25g g ––––––113LRD 05GV2L05––––––0.75g g 113LRD 06GV2L050.37g g 0.37g g –––113LRD 05GV2L050.55g g 0.55g g 1.1g g 1.622.5LRD 06GV2L06–––0.75g g ––– 1.622.5LRD 06GV2L060.75g g 1.1g g 1.54100 2.533.5LRD 07GV2L07Example: GV3 L32 becomes GV3 L326.(1) As % of Icu. Associated current limiter or fuses, where required. See characteristics page B6/33.g > 100 kA.GV2 L10D F 526145.t i fGV3 L65D F 526146.t i fTeSys GVThermal-magnetic motor circuit breakers GV2 ME0.06gg––––––0.16…0.252.4GV2ME020.09g g––––––0.25…0.405GV2ME030.12 0.18g g g g – –– –– – 0.37 –g–g –0.40…0.638GV2ME040.25gg––– 0.55gg0.63…113GV2ME050.37 0.55 –g g –g g –0.37 0.55 0.75g g g g g g – 0.75 1.1– g g – g g 1…1622.5GV2ME060.75g g1.1gg1.5375 1.6...2.533.5GV2ME071.1 1.5g g g g 1.5 2.2g g g g 2.2 3 3 375 75 2.5 (4)51GV2ME082.2gg350100 43754...6.378GV2ME103 4g g g g 4 5.510 10100 100 5.5 7.5 3 375 756 (10)138GV2ME145.5 –15 –50 –7.5 – 6 –75 – 9 11 3 375 759…14170GV2ME167.5155096751537513…18223GV2ME209154011475 18.537517…23327GV2ME2111154015475 –––20…25327GV2ME22 (3)15105018.54752237524 (32)416GV2ME32Motor circuit breakers from 0.06 to 15 kW / 400 V, with lugsTo order thermal magnetic circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above.Example: GV2 ME08 becomes GV2 ME086.Thermal magnetic circuit breakers GV2 ME with built-in auxiliary contact block With instantaneous auxiliary contact block (composition, see page B6/11):b GV AE1, add suffix AE1TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE1TQ .b GV AE11, add suffix AE11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE11TQ .b GV AN11, add suffix AN11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AN11TQ .These circuit breakers with built-in contact block are sold in lots of 20 units in a single pack.(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office. g > 100 kA.GV2 ME10D F 526134.t i fC i r c u i t b r e a k e r sTeSys GVTeSys protection componentsThermal-magnetic motor circuit breakers GV2 MEReferences0.06g g ––– 0.16…0.25 2.4GV2ME0230.09g g ––– 0.25…0.405GV2ME0330.120.18g g g g –––0.40…0.638GV2ME0430.250.37g g g g 0.37g g 0.63…113GV2ME0530.370.55g g g g 0.370.550.75g g g g g g 1…1.622.5GV2ME0630.75g g1.1g g 1.6…2.533.5GV2ME0731.11.5g g g g 1.52.2g g g g 2.5…451GV2ME0832.2g g 350100 4…6.378GV2ME10334g g g g 45.510101001006…10138GV2ME1435.515507.5675 9…14170GV2ME1637.515509675 13…18223GV2ME203911151540401147517…23327GV2ME2131115401547520 (25)327GV2ME223Contact blocksDescription Mounting Maximum number Type of contacts Sold in lots of Unitreference Instantaneous auxiliary contactsFront 1N/O + N/C 10GVAE113N/O + N/O 10GVAE203LH side2N/O + N/C 1GVAN113N/O + N/O1GVAN203AccessoryDescriptionApplicationSold in lots of Unitreference Cable end reducerFor connection of conductors from 1 to 1.5 mm 220LA9D99(1) For connection of conductors from 1 to 1.5 mm 2, the use of an LA9 D99 cable end reducer is recommended.(2) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office (3) The thermal trip setting must be within the range marked on the graduated knob.g > 100 kA.GV2 ME pp 3D F 526135.t i fLA9 D99D F 533898.e p sTeSys GVReferencesTeSys protection componentsThermal-magnetic motor circuit breakersGV2 P, GV3 P and GV3 ME80GV2 P10D F 526137.t i fGV3 P65D F 526139.t i fGV3 P651D F 526140.t i fC i r c u i t b r e a k e r sTeSys GVReferences93610011181001581007.59707010010091150501001001115101010010012…20GV7RS20 2.0109113636100100111518181001001518.58810010015…25GV7RE25 2.0109117070100100111550501001001518.5101010010015…25GV7RS25 2.01018.53610018.522181810010022810025…40GV7RE40 2.01018.57010018.550100221010025…40GV7RS40 2.0102236100301810030810030…50GV7RE50 2.01522701003050100301010030 (50)GV7RS502.01537361004555181810010055810048...80GV7RE80 2.040377010045555050100100551010048...80GV7RS80 2.0404536100–1810075810060...100GV7RE100 2.0404570100–50100751010060...100GV7RS100 2.0405575353510010075903030100100901108810010090 (150)GV7RE1502.020557570701001007590505010010090110101010010090…150GV7RS150 2.02090110353510010011013216030303010010010016020088100100132…220GV7RE220 2.3509011070701001001101321605050501001001001602001010100100132…220GV7RS220 2.350(1) As % of lcu.TeSys protection componentsThermal-magnetic motor circuit breakers GV7 RGV7 RE40D F 526138.t i fGV7 RS220D F 526141.t i f0.12–0.120.180.18–0.370.40…0.6313GV2RT040.090.120.250.370.250.370.370.550.63…122GV2RT050.180.250.370.550.370.550.370.550.750.751.11…1.633GV2RT060.370.750.751.1 1.11.51.6…2.551GV2RT070.550.75 1.11.5 1.51.52.2 2.23 2.5…478GV2RT081.12.22.23344…6.3138GV2RT101.52.234445.5 5.57.56…10200GV2RT142.23 5.55.57.57.59119…14280GV2RT1647.57.5991513…18400GV2RT205.5911111118.517…23400GV2RT21(1) The thermal trip setting must be within the range marked on the graduated knob.GV2 RTD F 526142.t i fC i r c u i t b r e a k e r sblack handle, blue legend plate(1) The thermal trip setting must be within the range marked on the graduated knob.(2) Other accessories such as mounting, cabling and marking accessories are identical to those used for GV2 ME motor circuit breakers, see page B6/13.GV2 RTD F 526142.t i fD F 526340.e p sC i r c u i t b r e a k e r sTeSys GVDescription Mounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront (1)1N/O or N/C (2)10GVAE1N/O + N/C 10GVAE11N/O + N/O10GVAE20Side (LH)2N/O + N/C1GVAN11N/O + N/O1GVAN20Fault signalling contact + instantaneous auxiliary contact Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contactSide (LH)1C/O common point1GVAM11(1 block on RH sideof circuit breaker GV2 ME)50 Hz GVAX11560 Hz GVAX116127 V60 Hz GVAX115220…240 V 50 Hz GVAX22560 Hz GVAX226380…400 V50 Hz GVAX38560 Hz GVAX386415…440 V 50 Hz GVAX415440 V60 Hz GVAX385Add-on contact blocksDescriptionMountingMaximum number Reference Visible isolation block (5)Front (1)1GV2AK00 (6)LimitersAt top(GV2 ME and GV2 P)1GV1L3Independent1LA9LB920(1) Mounting of a GV AE contact block or a GV2 AK00 visible isolation block on GV2 P and GV2 L .(2) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(3) The GV AD is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.(5) Visible isolation of the 3 poles upstream of circuit breaker GV2 P and GV2 L .Visible isolation block GV2 AK00 cannot be used with motor circuit breakers GV2 P32 and GV2 L32 (Ith max = 25 A).(6) Ie Max = 32 A.ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/89 and B6/94Dimensions, schemes:pages B6/70 to B6/82LA9LB920D B 126629.e p sC i r c u i t b r e a k e r sTeSys GVTerminal blockfor supply to one or more GV2 G busbar setsConnection from the top1GV1G09Can be fitted with current limiter GV1 L3 (GV2 ME and GV2 P)1GV2G05Cover for terminal block For mounting in modular panels10LA9E07Flexible 3-pole connection for connecting a GV2 to a contactor LC1-D09…D25 Centre distance between mounting rails: 100…120 mm10GV1G02Set of connections upstream/downstream For connecting GV2 ME to a printed circuit board 10GV2GA01“Large Spacing” adapter UL 508 type EFor GV2 P pp H7 (except 32 A)1GV2GH7Clip-in marker holders (supplied with each circuit breaker)For GV2 P , GV2 L, GV2 LE and GV2 RT (8 x 22 mm)100LA9D92ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAccessoriesDimensions, schemes:pages B6/70 to B6/82D B 417942.e p sTeSys GVD B 126631.e p sD B 126630.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accuracy to align the circuit breaker and the rotary handle.device(padlocks not included)ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsC i r c u i t b r e a k e r sTeSys GVDescriptionMounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront1N/O or N/C (1)10GVAE1N/O + N/C 10GVAE11 (2)N/O + N/O10GVAE20 (2)Side (LH)2N/O + N/C1GVAN11 (2)N/O + N/O1GVAN20 (2)Fault signalling contact + instantaneous auxiliary contactFront 1N/O (fault)+ N/O1GVAED101 (2)N/O (fault)+ N/C1GVAED011 (2)Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contact Side (LH)1C/O common point 1GVAM11(4)MountingVoltage ReferenceSide(1 block on RH side of circuit breaker)24 V 50 Hz GVA p 02560 Hz GVA p 02648 V 50 Hz GVA p 05560 Hz GVA p 05610050 Hz GVA p 107100…110 V 60 Hz GVA p 107110…115 V 50 Hz GVA p 11560 Hz GVA p 116120…127 V 50 Hz GVA p 125127 V 60 Hz GVA p 115200 V50 Hz GVA p 207200…220 V 60 Hz GVA p 207220…240 V 50 Hz GVA p 22560 Hz GVA p 226380…400 V 50 Hz GVA p 38560 Hz GVA p 386415…440 V 50 Hz GVA p 415415 V 60 Hz GVA p 416440 V 60 Hz GVA p 385480 V 60 Hz GVA p 415500 V 50 Hz GVA p 505600 V60 HzGVA p 505AccessoriesDescription Reference Sets of 3-pole 115 A busbars Pitch: 64 mm2 tap-off GV3 P pp and GV3 L pp GV3G2643 tap-off GV3 P pp and GV3 L pp GV3G364Cover “Large Spacing” UL 508 type E (Only one cover required on supply side)GV3 P ppGV3G66(1) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(2) Contact blocks available in version with spring terminal connections. Add a figure 3 at the end of the references selected above. Example: GV AED101 becomes GV AED1013.(3) The GV AD pp is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.Add-on blocks and accessoriesGV3 G66D F 537424.e p sTeSys GVD B 126637.e p sD B 126636.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accurency to align the circuit breaker and the rotary handle.For English 10-GVAPSEN For German 10-GVAPSDE For Spanish10-GVAPSES For Chinese 10-GVAPSCN For Portuguese 10-GVAPSPT For Russian 10-GVAPSRU For Italian10-GVAPSITD F 526342.e p sB6/21C i r c u i t b r e a k e r sTeSys GVfor locking the Start button (on open-mounted product)using up to 3 padlocks(padlocks to be ordered separately)External operator for mounting on enclosure door.Red Ø40 knob on yellow plate, padlockable in position O (with up to 3 padlocks). Door locked when knob in position I, and when knob padlocked in position O.GK3AP03(1) 1 voltage trip OR 1 fault signalling contact to be fitted inside the motor circuit breaker.Other versions24 to 690 V, 50 or 60 Hz voltage trips for circuit breakers GV3 ME80.Please consult your Regional Sales Office.ReferencesTeSys protection componentsMotor circuit breakers GV3 ME80 and GK3 EF80Add-on blocks and accessoriesCharacteristics:pages B6/89 and B6/92Dimensions:page B6/47B6/22D F 526344.e p sB6/23C i r c u i t b r e a k e r sTeSys GVThese allow remote indication of the circuit breaker contact states. They can be used for signalling, electrical locking, relaying, etc. They are available in two versions: standard and low level. They include a terminal block and the auxiliary circuits leave the circuit breaker through a hole provided for this purpose.They perform the following functions, depending on where they are located in the circuit breaker:Low levelGV7AB11Fault discrimination devicesThese make it possible to:b either differentiate a thermal fault from a magnetic fault,b or open the contactor only in the event of a thermal fault.VoltageReference a 24...48 and c 24…72 V GV7AD111 (1)z 110…240 VGV7AD112 (1)Electric tripsThese allow the circuit breaker to be tripped via an electrical control signal.b Undervoltage trip GV7 AUv Trips the circuit breaker when the control voltage drops below the tripping threshold, which is between 0.35 and 0.7 times the rated voltage.v Circuit breaker closing is only possible if the voltage exceeds 0.85 times the rated voltage. Circuit breaker tripping by a GV7 AU trip meets the requirements of IEC 60947-2.b Shunt trip GV7 ASTrips the circuit breaker when the control voltage rises above 0.7 times the rated voltage.b Operation (GV7 AU or GV7 AS)v When the circuit breaker has been tripped by a GV7 AU or AS, it must be reset either locally or by remote control. (For remote control, please consult your Regional Sales Office).v Tripping has priority over manual closing: if a tripping instruction is present, manual action does not result in closing, even temporarily, of the contacts.v Durability: 50 % of the mechanical durability of the circuit breaker.TypeVoltageReference Undervoltage trip48 V, 50/60 HzGV7AU055 (1)110…130 V, 50/60 Hz GV7AU107 (1)200…240 V, 50/60 Hz GV7AU207 (1)380…440 V, 50/60 Hz GV7AU387 (1)525 V, 50 HzGV7AU525 (1)Shunt trip48 V, 50/60 HzGV7AS055 (1)110…130 V, 50/60 Hz GV7AS107 (1)200…240 V, 50/60 Hz GV7AS207 (1)380…440 V, 50/60 Hz GV7AS387 (1)525 V, 50 HzGV7AS525 (1)(1) For mounting of a GV7 AD or a GV7 AU or AS.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/51, B6/52 and B6/56Dimensions:pages B6/79 to B6/81Schemes:page B6/83B6/24B6/25C i r c u i t b r e a k e r sTeSys GVDescription ApplicationFor use on contactors Sold in lots of Unitreference Clip-on connectors for GV7 RUp to 150 A, 1.5…95 mm 2–3GV7AC021Up to 220 A, 1.5…185 mm 2–3GV7AC022Spreader 3-pole (1)To increase the pitch to 45 mm–1GV7AC03Terminal shields IP 405 (1)Supplied with sealing accessory–1GV7AC01Phase barriersSafety accessories used when fitting of shields is impossible –2GV7AC04Insulating screens Ensure insulation between the connections and the backplate –2GV7AC05Kits for combination with contactor (2)Allowing link between thecircuit breaker and the contactor. The cover provides protection against direct finger contactLC1 F115…F1851GV7AC06LC1 F225 and F2651GV7AC07LC1 D115 and D1501GV7AC08Replaces the circuit breaker front cover; secured by screws. It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). A conversion accessory allows the direct rotary handle to be mounted on the enclosure door. In this case, the door cannot be opened if the circuit breaker is in the “ON” position. Circuit breaker closing is inhibited if the enclosure door is open.Description TypeDegree of protection Reference Direct rotary handleBlack handle, black legend plate IP 40GV7AP03Red handle, yellow legend plateIP 40GV7AP04Adapter plate (3)Four mounting direct rotary handle on enclosure doorIP 43GV7AP05Allows a circuit breaker installed in the back of an enclosure to be operated from the front of the enclosure. It comprises:b a unit which screws onto the front cover of the circuit breaker,b an assembly (handle and front plate) to be fitted on the enclosure door,b an extension shaft which must be adjusted (distance between the mounting surface and the door: 185 mm minimum, 600 mm maximum). It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). This prevents the enclosure door from being opened.DescriptionTypeDegree of protection Reference Extended rotary handleBlack handle, black legend plate IP 55GV7AP01Red handle, yellow legend plateIP 55GV7AP02Allows circuit breakers not fitted with a rotary handle to be locked in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included).Description ApplicationReference Locking deviceFor circuit breaker not fitted with a rotary handleGV7V01(1) Terminal shields cannot be used together with spreaders.(2) The kit comprises links, a protective shield and a depth adjustable metal bracket for the breaker.(3) This conversion accessory makes it impossible to open the door if the device is closed and prevents the device from being closed if the door is open.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAccessoriesGV7 AC07D F 537429.e p sGV7 AC08D F 537428.e p sDimensions:pages B6/79 to B6/81B6/260.5 6.63GB2DB051143GB2DB062263GB2DB073403GB2DB084503GB2DB095663GB2DB106833GB2DB1281083GB2DB14101383GB2DB16121653GB2DB20162203GB2DB21202703GB2DB22(1) Conforming to IEC 60947-1.GB2 CBppD F 526243.t i fGB2 CD ppD F 526244.t i fGB2 DBppD F 526245.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/27C i r c u i t b r e a k e r s(1) Conforming to IEC 60947-1.Accessories for circuit breakers GB2-CB, DB and CSDescriptionSold in lots of Unitreference Busbar set for supply to 10 GB2 DB or20 GB2 CB or GB2 CS with 2 connectors1GB2G210Supply connector 10GB2G01GB2 CS ppD F 526246.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/28B6/29B6/30TeSys GVCharacteristicsTeSys protection componentsMagnetic motor circuit breakers GV2 LE and GV2 LReferences:pages B6/2 and B6/3Dimensions:pages B6/43 to B6/47Schemes:page B6/48add-on contact blocks. Side by side mounting is possible up to 40 °C.(2) When mounting on a vertical rail, fit a stop to prevent any slippage.(1) As % of Icu.Average operating times at 20 °C related to multiples of the setting currentD F 534092.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534093.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534094.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Thermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22Prospective Isc (kA)D F 534095.e p s1 32 A 2 25 A3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534096.e p s1 25 A and 32 A 2 18 A3 14 A 4 10 A5 6.3 A6 4 A7 2.5 A8 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534097.e p s1 32 A (GV2 LE32)2 25 A and 32 A (GV2 L32)3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 A10 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Average operating time at 20 °C without prior current flowx the setting current (Ir)D F 534098.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateA Thermal overload relay protection zoneB GV3 L protection zoneDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VProspective Isc (kA)D B 418280.e p s1 Maximum peak current2 GV3 L653 GV3 L504 GV3 L405 GV3 L326 GV3 L25Thermal limit in A 2sSum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V2Prospective Isc (kA)D B 418279.e p s1 GV3 L652 GV3 L503 GV3 L404 GV3 L325 GV3 L25TeSys GVDimensions, mountingD F 537440.e p sD F 537441.e p sD F 537444.e p sTeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LETeSys GVDimensions, mounting TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED B 127415.e p sD B 127414.e p sa b Mini Maxi Mini Maxi GV2 APN pp140250GV2 APN pp + GV APH02151250GV2 APN pp + GV APK11250434--GV2 APN pp + GV APH02 + GV APK11--250445TeSys GVDimensions,mounting Sets of busbars GV2 G445, GV2 G454, GV2 G472, with terminal block GV2 G05D F 537451.e p sGV2 G445224269314359GV2 G454260314368422GV2 G472332404476548D F 537452.e p sD F 537454.e p sGV2 G345 (3 x 45 mm)134GV2 G354 (3 x 54 mm)152TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED F 537480.e psD F 537435.e p sD F 510637.e p sD F 510638.e p sD B 127416.e p sD B 127417.e p sa b Mini Maxi Mini Maxi GV3 APN pp189300--GV3 APN pp + GV APK12300481GV3 APN pp + GV APH03--200300GV3 APN pp + GV APH03 + GV APK12--300492TeSys GVSchemesTeSys protection componentsMagnetic motor circuit breakers GV2 L, GV2 LE, GV3 LD F 537474.e p sD F 537475.e p sD F 537476.e p sGV2 ME, GV2 P , GV3 ME, GV3 P and GV7 R motor circuit breakers are 3-pole thermal-magnetic circuit breakers specifically designed for the control and protection of motors , conforming to standards IEC 60947-2 and IEC 60947-4-1.Connection GV2GV2 ME and GV2 P circuit breakers are designed for connection by screw clamp terminals.Circuit breaker GV2 ME can be supplied with lugs or spring terminal connections.Spring terminal connections ensure secure, permanent and durable clamping that is resistant to harsh environments, vibration and impact and are even more effective when conductors without cable ends are used. Each connection can take two independent conductors.GV3GV3 circuit breakers feature connection by BTR screws (hexagon socket head), tightened using a n° 4 Allen key.This type of connection uses the Ever Link ® system with creep compensation (1) (Schneider Electric patent).This technique makes it possible to achieve accurate and durable tightening torque, in order to avoid cable creep.GV3 circuit breakers are also available with connection by lugs. This type of connection meets the requirements of certain Asian markets and is suitable for applications subject to strong vibration, such as railway transport.GV7GV7 circuit breakers: with connection by screw clamp terminals (for bars and lugs) and by clip-on connectors.OperationControl is manual and local when the motor circuit breaker is used on its own.Control is automatic and remote when it is associated with a contactor.GV2 ME and GV3 ME80Pushbutton control.Energisation is controlled manually by operating the Start button “I” 1.De-energisation is controlled manually by operating the Stop button “O” 2, or automatically by the thermal-magnetic protection elements or by a voltage trip attachment.GV2 P , GV3 P and GV7 Rb Control by rotary knob: for GV2 P and GV3 P b Control by rocker lever: for GV7 R.Energisation is controlled manually by moving the knob or rocker lever to position “I” 1.De-energisation is controlled manually by moving the knob or rocker lever to position “O” 2.De-energisation due to a fault automatically places the knob or rocker lever in the “Trip” position 3.Re-energisation is possible only after having returned the knob or rocker lever to position “O”.(1) Creep: normal crushing phenomenon of copper conductors, that is accentuated over time.GV2 MEwith screw clamp terminals124D F 526134.t i fGV2 MEwith spring terminals connections124D F 526135.t i fGV3 P1324D F 526136.t ifGV2 P1342D F 526137.t i fGV7 R132D F 526138.t i f。

CXB3590-0000-00 0N0HCD35G CXB3590-0000-000N0HCD40GCXB3590-0000-000N0HCD50GCXB3590-0000-000R0HCB30GCXB3590-0000-000N0HCD40GE E .C o m /X L A m pCLD-DS126 Rev 3ACree ® XLamp ® CXB3590 LEDProDuCt DEsCriPtionThe XLamp ® CXB3590 LeD Array is the brightest member of the second generation of the CXA family that delivers up to 30% higher efficacy and up to 20% higher lumens than the first generation in the same LES. The higher performance second generation CXA LeD Arrays provide a drop-in performance upgrade to existing CXA LeD designs to shorten product development time. Available in 2‑step, 3-step and 5-step easyWhite ® bins, the CXB3590 LeD delivers high lumen output and high efficacy in a single, easy-to-use package that eliminates the need for reflow soldering.The CX Family LeD Design Guide provides basic information on the requirements to use the CXB3590 LeD successfully in luminaire designs.fEaturEs•30-mm optical source• Mechanical and optical designconsistent with CXA35 LED• Available in 70‑, 80‑ and 90‑minimum CRI options• Cree easyWhite ® 2‑, 3‑ and 5‑step binning• Forward voltage options: 36‑V class & 72-v class• 85 °C binning and characterization • Extremely uniform color over viewing angle• Top-side solder connections • Thermocouple attach point• NEMA SSL‑3 2011 standard flux bins • RoHS and ReACh compliant • UL ® recognized component(e349212)taBLE of ContEntsCharacteristics ............................................2Operating Limits ..........................................3Flux Characteristics, EasyWhite ® Order Codes and Bins ‑ 36 V .................................4Flux Characteristics, EasyWhite ® Order Codes and Bins ‑ 72 V .................................7Relative Spectral Power Distribution ......10electrical Characteristics .........................11Relative Luminous Flux ............................12Typical Spatial Distribution ......................14Performance Groups - Brightness ..........14Performance Groups - Chromaticity .......15Cree easyWhite ® Bins Plotted on the 1931 CIe Curve .........................................16Bin and Order Code Formats ...................17Mechanical Dimensions ..........................17Thermal Design ........................................18Notes ........................................................20Packaging . (21)CharaCtEristiCsoPErating LiMitsThe maximum current rating of the CXB3590 depends on the case temperature (Tc) when the LED has reached thermal equilibrium under steady‑state operation. The graphs shown below assume that the system design employs good thermal management (thermal interface material and heat sink) and may vary when poor thermal management is employed. Please refer to the Mechanical Dimensions section on page 17 for the location of the Tc measurement point.Another important factor in good thermal management is the temperature of the Light Emitting Surface (LES). Cree recommends a maximum LES temperature of 135 °C to ensure optimal LED lifetime. Please refer to the Thermal Design section on page 18 for more information on LES temperature measurement.Notes • Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and a tolerance of ±2 on CRImeasurements. See the Measurements section (page 20).• Cree XLamp CXB3590 LED order codes specify only a minimum flux bin and not a maximum. Cree may ship reels in flux bins higher than the minimumspecified by the order code without advance notice. Shipments will always adhere to the chromaticity bin restrictions specified by the order code.* For 80 CRI minimum LEDs, CRI R9 minimum is 0 with a ±2 tolerance. For 90 CRI minimum LEDs, CRI R9 typical is 60.** Flux values @ 25 °C are calculated and for reference only.fLuX CharaCtEristiCs, EasyWhitE ® Order COdes and Bins - 36 V (i f = 2400 ma, t J = 85 °C)The following table provides order codes for XLamp CXB3590 LEDs. For a complete description of the order code nomenclature, pleasesee the Bin and Order Code Formats section (page 17).Notes • Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and a tolerance of ±2 on CRImeasurements. See the Measurements section (page 20).• Cree XLamp CXB3590 LED order codes specify only a minimum flux bin and not a maximum. Cree may ship reels in flux bins higher than the minimumspecified by the order code without advance notice. Shipments will always adhere to the chromaticity bin restrictions specified by the order code.* For 80 CRI minimum LEDs, CRI R9 minimum is 0 with a ±2 tolerance. For 90 CRI minimum LEDs, CRI R9 typical is 60.**Flux values @ 25 °C are calculated and for reference only.fLuX CharaCtEristiCs, EasyWhitE ® Order COdes and Bins - 36 V (i f = 2400 ma, t J = 85 °C) - COntinuedNotes • Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and a tolerance of ±2 on CRImeasurements. See the Measurements section (page 20).• Cree XLamp CXB3590 LED order codes specify only a minimum flux bin and not a maximum. Cree may ship reels in flux bins higher than the minimumspecified by the order code without advance notice. Shipments will always adhere to the chromaticity bin restrictions specified by the order code.* For 80 CRI minimum LEDs, CRI R9 minimum is 0 with a ±2 tolerance. For 90 CRI minimum LEDs, CRI R9 typical is 60.**Flux values @ 25 °C are calculated and for reference only.fLuX CharaCtEristiCs, EasyWhitE ® Order COdes and Bins - 36 V (i f = 2400 ma, t J = 85 °C) - COntinuedNotes • Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and a tolerance of ±2 on CRImeasurements. See the Measurements section (page 20).• Cree XLamp CXB3590 LED order codes specify only a minimum flux bin and not a maximum. Cree may ship reels in flux bins higher than the minimumspecified by the order code without advance notice. Shipments will always adhere to the chromaticity bin restrictions specified by the order code.* For 80 CRI minimum LEDs, CRI R9 minimum is 0 with a ±2 tolerance. For 90 CRI minimum LEDs, CRI R9 typical is 60.** Flux values @ 25 °C are calculated and for reference only.fLuX CharaCtEristiCs, EasyWhitE ® Order COdes and Bins - 72 V (i f = 1200 ma, t J = 85 °C)The following table provides order codes for XLamp CXB3590 LEDs. For a complete description of the order code nomenclature, pleasesee the Bin and Order Code Formats section (page 17).Notes • Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and a tolerance of ±2 on CRImeasurements. See the Measurements section (page 20).• Cree XLamp CXB3590 LED order codes specify only a minimum flux bin and not a maximum. Cree may ship reels in flux bins higher than the minimumspecified by the order code without advance notice. Shipments will always adhere to the chromaticity bin restrictions specified by the order code.* For 80 CRI minimum LEDs, CRI R9 minimum is 0 with a ±2 tolerance. For 90 CRI minimum LEDs, CRI R9 typical is 60.**Flux values @ 25 °C are calculated and for reference only.fLuX CharaCtEristiCs, EasyWhitE ® Order COdes and Bins - 72 V (i f = 1200 ma, t J = 85 °C) - COntinuedNotes • Cree maintains a tolerance of ±7% on flux and power measurements, ±0.005 on chromaticity (CCx, CCy) measurements and a tolerance of ±2 on CRImeasurements. See the Measurements section (page 20).• Cree XLamp CXB3590 LED order codes specify only a minimum flux bin and not a maximum. Cree may ship reels in flux bins higher than the minimumspecified by the order code without advance notice. Shipments will always adhere to the chromaticity bin restrictions specified by the order code.* For 80 CRI minimum LEDs, CRI R9 minimum is 0 with a ±2 tolerance. For 90 CRI minimum LEDs, CRI R9 typical is 60.**Flux values @ 25 °C are calculated and for reference only.fLuX CharaCtEristiCs, EasyWhitE ® Order COdes and Bins - 72 V (i f = 1200 ma, t J = 85 °C) - COntinuedrelatiVe speCtral pOwer distriButiOnThe following graph is the result of a series of pulsed measurements at 2400 mA for the 36‑V CXB3590 and 1200 mA for the 72‑V = 85 °C.CXB3590 and TJELECtriCaL CharaCtEristiCsThe following graph is the result of a series of steady‑state measurements.relatiVe luminOus FluxThe relative luminous flux values provided below are the ratio of:• Measurements of CXB3590 at steady‑state operation at the given conditions, divided by= 85 °C for the 36‑V CXB3590.• Flux measured during binning, which is a pulsed measurement at 2400 mA at TJUsing the 36‑V CXB3590 LED as an example, at steady‑state operation of Tc = 25 °C, I= 2800 mA, the relative luminous flux ratio is 120%Fin the chart below. A CXB3590 LED that measures 11,000 lm during binning will deliver 13,200 lm (11,000 * 1.2) at steady‑state operation = 2800 mA.of Tc = 25 °C, IFrelatiVe luminOus Flux - COntinuedThe relative luminous flux values provided below are the ratio of:• Measurements of CXB3590 at steady‑state operation at the given conditions, divided by= 85 °C for the 72‑V CXB3590.• Flux measured during binning, which is a pulsed measurement at 1200 mA at TJUsing the 72‑V CXB3590 LED as an example, at steady‑state operation of Tc = 25 °C, I= 1400 mA, the relative luminous flux ratio is 120%Fin the chart below. A CXB3590 LED that measures 11,000 lm during binning will deliver 13,200 lm (11,000 * 1.2) at steady‑state operation = 1400 mA.of Tc = 25 °C, IFtyPiCaL sPatiaL DistriButionperFOrmanCe GrOups - BriGhtness (36 V, i F = 2400 m a; 72 V, i F = 1200 ma, t J = 85 °C)XLamp CXB3590 LEDs are tested for luminous flux and placed into one of the following bins.= 85 °C)perFOrmanCe GrOups - ChrOmatiCity (tjXLamp CXB3590 LEDs are tested for chromaticity and placed into one of the regions defined by the following bounding coordinates.Bin anD orDEr CoDE forMatsBin codes and order codes are configured as follows:order Code Bin CodeSeries = CXA35Internal codeCRI Specification0 = Standard CRIH = 80 CRI minimumU = 90 CRI minimumY = 93 CRI minimumKit codeVf classN0 = 36-V classR0 = 72-V classPerformance classSeries = CXA35Chromaticity binVf classN0 = 36-V classR0 = 72-V classInternal codeCRI SpecificationB = 70 CRI minimumH = 80 CRI minimumU = 90 CRI minimumY = 93 CRI minimumFlux binPerformance classMEChaniCaL DiMEnsionsDimensions are in mm.Tolerances unless otherwisespecified: ±.13x° ±1°Meaning of B3590XB3590N = 36‑V CXB3590B3590R = 72‑V CXB3590B3590XthErMaL DEsignThe CXB family of LED arrays can include over a hundred different LED die inside one package, and thus over a hundred different junction temperatures (T J ). Cree has intentionally removed junction‑temperature‑based operating limits and replaced the commonplace maximum T J calculations with maximum ratings based on forward current (I F ) and case temperature (Tc). No additional calculations are required to ensure that the CXB LED is being operated within its designed limits. LES temperature measurement provides additional verification of good thermal design. Please refer to page 22 for the Operating Limit specifications.There is no need to calculate for T J inside the package, as the thermal management design process, specifically from T SP to ambient (T a ), remains identical to any other LED component. For more information on thermal management of Cree XLamp LEDs, please refer to the Thermal Management application note . For CXB soldering recommendations and more information on thermal interface materials (TIM), LES temperature measurement, and connection methods, please refer to the Cree XLamp CX Family LeDs soldering and handling document . The CX Family LeD Design Guide provides basic information on the requirements to use Cree XLamp CXB LeDs successfully in luminaire designs.To keep the CXB3590 LED at or below the maximum rated Tc, the case to ambient temperature thermal resistance (R_c‑a) must be at or below the maximum R_c‑a value shown on the following graph, depending on the operating environment. The y‑axis in each graph is a base 10 logarithmic scale.As the figure at right shows, the R_c‑a value is the sum of the thermal resistance of the TIM (R_tim) plus the thermal resistance of the heat sink (R_hs).R_j-c Tc R_timR_hs TaR_j-c TcR_c-aTathErMaL DEsign - ContinuEDnotEsMeasurementsThe luminous flux, radiant power, chromaticity, forward voltage and CRI measurements in this document are binning specifications only and solely represent product measurements as of the date of shipment. These measurements will change over time based on a number of factors that are not within Cree’s control and are not intended or provided as operational specifications for the products. Calculated values are provided for informational purposes only and are not intended or provided as specifications.pre-release Qualification testingPlease read the LED Reliability Overview for details of the qualification process Cree applies to ensure long‑term reliability for XLamp LEDs and details of Cree’s pre‑release qualification testing for XLamp LEDs.Lumen MaintenanceCree now uses standardized IES LM‑80‑08 and TM‑21‑11 methods for collecting long‑term data and extrapolating LED lumen maintenance. For information on the specific LM‑80 data sets available for this LED, refer to the public LM‑80 results document.Please read the Long-Term Lumen Maintenance application note for more details on Cree’s lumen maintenance testing and forecasting. Please read the Thermal Management application note for details on how thermal design, ambient temperature, and drive current affect the LED junction temperature.rohs ComplianceThe levels of RoHS restricted materials in this product are below the maximum concentration values (also referred to as the threshold limits) permitted for such substances, or are used in an exempted application, in accordance with EU Directive 2011/65/EC (RoHS2), as implemented January 2, 2013. RoHS Declarations for this product can be obtained from your Cree representative or from the Product ecology section of the Cree website..rEaCh ComplianceREACh substances of very high concern (SVHCs) information is available for this product. Since the European Chemical Agency (ECHA) has published notice of their intent to frequently revise the SVHC listing for the foreseeable future, please contact a Cree representative to insure you get the most up‑to‑date REACh Declaration. REACh banned substance information (REACh Article 67) is also available upon request.uL® recognized ComponentThis product meets the requirements to be considered a UL Recognized Component with Level 4 enclosure consideration. The LED package or a portion thereof has been investigated as a fire and electrical enclosure per ANSI/UL 8750.Vision advisoryWARNING: Do not look at an exposed lamp in operation. Eye injury can result. For more information about LEDs and eye safety, please refer to the LeD eye Safety application note.PaCkagingCree CXB3590 LEDs are packaged in trays of 10. Five trays are sealed in an anti‑static bag and placed inside a carton, for a total of 50 LEDs per carton. Each carton contains 50 LEDs from the same performance bin.Dimensions are in inches.Tolerances: ±.13x° ±1°LABEL WITH CREE BIN CODE, QUANTITY, LOT #BAGLABEL WITH CREE BIN CODE, QUANTITY, LOT #CXB3590-0000-00 0N0HCD35GCXB3590-0000-00 0N0HCD35G CXB3590-0000-000N0HCD40GCXB3590-0000-000N0HCD50GCXB3590-0000-000R0HCB30GCXB3590-0000-000N0HCD40G。

系上绳扣/腕带MS3590移动扫描器快速指引注：扫描器在移动过程中，绳扣/腕带可以帮助用户预防跌落扫描器而造成扫描器的损坏。

) 每套MS3590移动扫描器标准配置包括：移动扫描器一个，USB连接线一根和CD光盘一个（内含软件和电子文档使用手册）。

可选附件包括一个支持可靠数据通信的蓝牙USB适配器BA2110和一个交流/直流适配器供电池充电使用。

) 除另外说明，术语“扫描器”在本指引中皆指代MS3590移动扫描器。

) 请使用柔软的干布清洁扫描器。

) 无线数据传送的有效范围：在天气晴朗，温度27℃，能见度5公里以上的条件下，通信距离可达30米。

已知可能对通信距离造成显著影响的情况包括：雨天、潮湿和尘埃天气；手持终端与基座间有墙或铁质障碍物；周围有无线电干扰。

) 蓝牙和无线局域网（WLAN）都使用2.4GHz 频段并且后者发射功率较大。

因此，在同一区域两种网络同时工作可能会导致扫描器的有效通信范围严重收缩。

) 扫描器有多种无线工作模式，支持离线数据保存等多种功能。

建议使用前，请详细阅读使用手册。

1. 依次从电源后盖拧开4个螺钉。

2. 然后在挂钩上系上绳扣/腕带。

3. 合上电源后盖并拧紧扫描器的4个螺钉。

更换电池1. 依次从电源后盖拧开4个螺钉。

2. 适当放置电池，将插头滑入插座至连接牢靠。

3.合上电源后盖并拧紧扫描器的4个螺钉。

扫描器外观○1蓝色LED (蓝牙电源指示); 绿色LED (解码成功指示); 红色LED (充电指示) ○2液晶屏○3~○4软键 ○5~○8导航键 ○9扫描/选择键○10返回键 ○11蓝牙开/关键 ○12电源开关/睡眠键 ○13扫描窗 ○14标签 ○15蜂鸣器出声口 ○16电池盖 ○17迷你USB 接口 / 电池充电口 ○18绳扣/腕带挂钩 电池充电1. 第一次使用扫描器前，请先给电池充电。

扫描器提供两种充电方式（见下图）。

红色LED亮表示电池正处于充电状态，红色LED灭表示电池电量已满。

28TMS320C6745,TMS320C6747SPRS377F –SEPTEMBER 2008–REVISED JUNE 2014Submit Documentation FeedbackProduct Folder Links:TMS320C6745TMS320C6747Device Overview Copyright ©2008–2014,Texas Instruments Incorporated(1)I =Input,O =Output,I/O =Bidirectional,Z =High impedance,PWR =Supply voltage,GND =Ground,A =Analog signal.Note:For multiplexed pins where functions have different types (ie.,input versus output),the table reflects the pin function direction for that particular peripheral.(2)IPD =Internal Pulldown resistor,IPU =Internal Pullup resistor (3)Open drain mode for RESETOUT function.3.6Terminal Functionsto identify the external signal names,the associated pin/ball numbers along with the mechanical package designator,the pin type (I,O,IO,OZ,or PWR),whether the pin/ball has any internal pullup/pulldown resistors,whether the pin/ball is configurable as an IO in GPIO mode,and a functional pin description.3.6.1Device Reset and JTAGTable 3-6.Reset and JTAG Terminal FunctionsSIGNAL NAME PIN NOTYPE (1)PULL (2)DESCRIPTION PTPZKB RESET RESET 146G3I Device reset input AMUTE0/RESETOUT -L4O (3)IPD Reset output JTAG TMS 152J1I IPU JTAG test mode select TDI 153J2I IPU JTAG test data input TDO 156J3O IPD JTAG test data output TCK 155H3I IPU JTAG test clock TRST 150J4I IPD JTAG test reset EMU[0]/GP7[15]-J5I/O IPU Emulation Signal (1)I =Input,O =Output,I/O =Bidirectional,Z =High impedance,PWR =Supply voltage,GND =Ground,A =Analog signal.Note:For multiplexed pins where functions have different types (ie.,input versus output),the table reflects the pin function direction for that particular peripheral.(2)IPD =Internal Pulldown resistor,IPU =Internal Pullup resistor3.6.2High-Frequency Oscillator and PLLTable 3-7.High-Frequency Oscillator and PLL Terminal FunctionsSIGNAL NAME PIN NOTYPE (1)PULL (2)DESCRIPTION PTPZKB EMA_CLK/OBSCLK /AHCLKR2/GP1[15]-R12O IPU PLL Observation Clock 1.2-V OSCILLATOR OSCIN143F2I Oscillator input OSCOUT145F1O Oscillator output OSCVSS144E2GND Oscillator ground (for filter only)1.2-V PLL PLL0_VDDA141D1PWR PLL analog V DD (1.2-V filtered supply)PLL0_VSSA142E1GND PLL analog V SS (for filter)59TMS320C6745,TMS320C6747SPRS377F –SEPTEMBER 2008–REVISED JUNE 2014Submit Documentation FeedbackProduct Folder Links:TMS320C6745TMS320C6747Device Configuration Copyright ©2008–2014,Texas Instruments Incorporated 4.3Pullup/Pulldown ResistorsProper board design should ensure that input pins to the device always be at a valid logic level and not floating.This may be achieved via pullup/pulldown resistors.The device features internal pullup (IPU)and internal pulldown (IPD)resistors on most pins to eliminate the need,unless otherwise noted,for external pullup/pulldown resistors.An external pullup/pulldown resistor needs to be used in the following situations:•Boot and Configuration Pins:If the pin is both routed out and 3-stated (not driven),an external pullup/pulldown resistor is strongly recommended,even if the IPU/IPD matches the desired value/state.•Other Input Pins:If the IPU/IPD does not match the desired value/state,use an external pullup/pulldown resistor to pull the signal to the opposite rail.For the boot and configuration pins,if they are both routed out and 3-stated (not driven),it is strongly recommended that an external pullup/pulldown resistor be implemented.Although,internal pullup/pulldown resistors exist on these pins and they may match the desired configuration value,providing external connectivity can help ensure that valid logic levels are latched on these device boot and configuration pins.In addition,applying external pullup/pulldown resistors on the boot and configuration pins adds convenience to the user in debugging and flexibility in switching operating modes.Tips for choosing an external pullup/pulldown resistor:•Consider the total amount of current that may pass through the pullup or pulldown resistor.Make sure to include the leakage currents of all the devices connected to the net,as well as any internal pullup or pulldown resistors.•Decide a target value for the net.For a pulldown resistor,this should be below the lowest V IL level of all inputs connected to the net.For a pullup resistor,this should be above the highest V IH level of all inputs on the net.A reasonable choice would be to target the V OL or V OH levels for the logic family of the limiting device;which,by definition,have margin to the V IL and V IH levels.•Select a pullup/pulldown resistor with the largest possible value;but,which can still ensure that the net will reach the target pulled value when maximum current from all devices on the net is flowing through the resistor.The current to be considered includes leakage current plus,any other internal and external pullup/pulldown resistors on the net.•For bidirectional nets,there is an additional consideration which sets a lower limit on the resistance value of the external resistor.Verify that the resistance is small enough that the weakest output buffer can drive the net to the opposite logic level (including margin).•Remember to include tolerances when selecting the resistor value.•For pullup resistors,also remember to include tolerances on the IO supply rail.•For most systems,a 1-k Ωresistor can be used to oppose the IPU/IPD while meeting the above ers should confirm this resistor value is correct for their specific application.•For most systems,a 20-k Ωresistor can be used to compliment the IPU/IPD on the boot and configuration pins while meeting the above ers should confirm this resistor value is correct for their specific application.•For more detailed information on input current (I I ),and the low-/high-level input voltages (V IL and V IH )for the device,see Section 5.3,Recommended Operating Conditions.•For the internal pullup/pulldown resistors for all device pins,see the peripheral/system-specific terminal functions table.芯片详细信息Source Content uid Manufacturer Pa同Numbe『T M S3200M3550Z C E 135 T M S3200M3550Z CE 135Part Life Cycle Code lhs Manufacture『Ac ti ve T E XA S I N S TRUME N T S I NC P i n Count Reach Compliance c。

Inspiron 3590设置和规格注、小心和警告: “注”表示帮助您更好地使用该产品的重要信息。

: “小心”表示可能会损坏硬件或导致数据丢失，并说明如何避免此类问题。

: “警告”表示可能会造成财产损失、人身伤害甚至死亡。

© 2019 Dell Inc. 或其子公司。

保留所有权利Dell、EMC 和其他商标为 Dell Inc. 或其子公司的商标。

其他商标均为其各自所有者的商标。

2019 - 07Rev. A001 设置 Inspiron 3590 (4)2 Inspiron 3590 的视图 (6)左侧 (6)右 (6)基座 (7)显示屏 (8)底部 (8)3 Inspiron 3590 的规格 (10)尺寸和重量： (10)处理器 (10)芯片组 (10)操作系统 (11)内存 (11)英特尔傲腾内存（可选） (11)端口和接口 (12)通信 (13)音频 (14)存储 (14)介质卡读取器 (15)键盘 (15)摄像头 (15)触摸板 (16)触摸板手势 (16)电源适配器 (16)电池 (17)显示屏 (17)指纹读取器（可选） (18)显卡 (18)计算机环境 (19)4 键盘快捷方式 (20)5 获取帮助和联系 Dell (22)目录3设置 Inspiron 3590: 根据您所订购的配置，本文档中的图像可能与您的计算机有所差异。

1.连接电源适配器，然后按下电源按钮。

注: 为了节省电池电量，电池可能进入省电模式。

打开电源适配器，并按电源按钮以打开计算机。

2.完成操作系统设置。

对于 Ubuntu ：按照屏幕上的说明完成设置。

有关安装和配置 Ubuntu 的更多信息，请参阅知识库文章 SLN151664 和 SLN151748，网址：/support 。

对于 Windows ：按照屏幕上的说明完成设置。

设置时，Dell 建议您执行以下操作：•连接到网络以进行 Windows 更新。

1Features•Utilizes the AVR ® Enhanced RISC Architecture•AVR - High Performance and Low Power RISC Architecture •118 Powerful Instructions - Most Single Clock Cycle Execution •8K bytes of In-System Programmable Flash AT90S/LS85354K bytes of In-System Programmable Flash AT90S/LS4434–SPI Serial Interface for In-System Programming –Endurance: 1,000 Write/Erase Cycles •512 bytes EEPROM AT90S/LS8535256 bytes EEPROM AT90S/LS4434–Endurance: 100,000 Write/Erase Cycles •512 bytes Internal SRAM AT90S/LS8535256 bytes Internal SRAM AT90S/LS4434•8-Channel, 10-Bit ADC•32 x 8 General Purpose Working Registers •32 Programmable I/O Lines •Programmable Serial UART•V CC : 4.0 - 6.0V AT90S4434/AT90S8535•V CC : 2.7 - 6.0V AT90LS4434/AT90LS8535•Speed Grades:0 - 8 MHz AT90S4434/AT90S8535, 0 - 4 MHz (AT90LS4434/AT90LS8535•Power-On Reset Circuit•Up to 8 MIPS Throughput at 8 MHz•RTC with Separate Oscillator and Counter Mode•Two 8-Bit Timer/Counters with Separate Prescaler and Compare Mode•One 16-Bit Timer/Counter with Separate Prescaler and Compare and Capture Modes • 3 PWM channels•External and Internal Interrupt Sources•Programmable Watchdog Timer with On-Chip Oscillator •On-Chip Analog Comparator•Three Sleep Modes: Idle, Power Save, and Power Down •Programming Lock for Software SecurityDescriptionThe AT90S4434/8535 is a low-power CMOS 8-bit microcontroller based on the AVR ®enhanced RISC architecture. By executing powerful instructions in a single clock cycle, the AT90S4434/8535 achieves throughputs approaching 1 MIPS per MHz allowing the system designer to optimize power consumption versus processing speed.Microcontroller with 4K/8KAT90S/LS4434 and AT90S/LS85352Block DiagramThe AVR core combines a rich instruction set with 32 gen-eral purpose working registers. All the 32 registers are directly connected to the Arithmetic Logic Unit (ALU),allowing two independent registers to be accessed in one single instruction executed in one clock cycle. The resulting architecture is more code efficient while achieving through-puts up to ten times faster than conventional CISC micro-controllers.The AT90S4434/8535 provides the following features:4K/8K bytes of In-System Programmable Flash, 256/512bytes EEPROM, 256/512 bytes SRAM, 32 general purpose I/O lines, 32 general purpose working registers, RTC, three flexible timer/counters with compare modes, internal and external interrupts, a programmable serial UART, 8-chan-nel, 10-bit ADC, programmable Watchdog Timer with inter-nal oscillator, an SPI serial port and three software selectable power saving modes. The Idle mode stops the CPU while allowing the SRAM, timer/counters, SPI port and interrupt system to continue functioning. The Power Down mode saves the register contents but freezes the oscillator, disabling all other chip functions until the next interrupt or hardware reset. In Power Save mode, the timer oscillator continues to run, allowing the user to maintain a timer base while the rest of the device is sleeping.The device is manufactured using Atmel’s high density non-volatile memory technology. The on-chip ISP FlashAT90S/LS4434 and AT90S/LS85353allows the program memory to be reprogrammed in-system through an SPI serial interface or by a conventional nonvol-atile memory programmer. By combining an 8-bit RISC CPU with In-System Programmable Flash on a monolithic chip, the Atmel AT90S4434/8535 is a powerful microcon-troller that provides a highly flexible and cost effective solu-tion to many embedded control applications.The AT90S4434/8535 AVR is supported with a full suite of program and system development tools including: C com-pilers, macro assemblers, program debugger/simulators,in-circuit emulators, and evaluation kits.Comparison between AT90S4434 and AT90S8535The AT90S4434 has 4K bytes of In-System Programmable Flash, 256bytes of EEPROM, and 256bytes of internal SRAM.The AT90S8535 has 8K bytes of In-System Programmable Flash, 512bytes of EEPROM, and 512bytes of internal SRAM.Table 1 summarizes the different memory sizes for the two devices.Pin DescriptionsVCCDigital supply voltage GNDDigital ground Port A (P A7..PA0)Port A is an 8-bit bi-directional I/O port. Port pins can pro-vide internal pull-up resistors (selected for each bit). The Port A output buffers can sink 20mA and can drive LED dis-plays directly. When pins PA0 to PA7 are used as inputs and are externally pulled low, they will source current if the internal pull-up resistors are activated.Port A also serves as the analog inputs to the A/D Con-verter.Port B (PB7..PB0)Port B is an 8-bit bi-directional I/O pins with internal pull-up resistors. The Port B output buffers can sink 20 mA. As inputs, Port B pins that are externally pulled low will source current if the pull-up resistors are activated.Port B also serves the functions of various special features of the AT90S4434/8535 as listed on page 52.Port C (PC7..PC0)Port C is an 8-bit bi-directional I/O port with internal pullup resistors. The Port C output buffers can sink 20 mA. As inputs, Port C pins that are externally pulled low will source current if the pull-up resistors are activated. Two Port C pi n s c an al ter n at iv e ly be u s ed a s o s c il l ato r f or Timer/Counter2.Port D (PD7..PD0)Port D is an 8-bit bidirectional I/O port with internal pull-up resistors. The Port D output buffers can sink 20 mA. As inputs, Port D pins that are externally pulled low will source current if the pull-up resistors are activated.Port D also serves the functions of various special features of the AT90S4434/8535 as listed on page 59.Reset input. A low on this pin for two machine cycles while the oscillator is running resets the device.XTAL1Input to the inverting oscillator amplifier and input to the internal clock operating circuit.XTAL2Output from the inverting oscillator amplifier AVCCThis is the supply voltage pin for the A/D Converter. It should be externally connected to VCC via a low-pass filter.See page 47 for details on operation of the ADC.AREFThis is the analog reference input for the A/D Converter.For ADC operations, a voltage in the range AGND to AV CC must be applied to this pin.AGNDAnalog ground. If the board has a separate analog ground plane, this pin should be connected to this ground plane.Otherwise, connect to GND.Crystal OscillatorsXTAL1 and XTAL2 are input and output, respectively, of an inverting amplifier which can be configured for use as an on-chip oscillator, as shown in Figure 1. Either a quartz crystal or a ceramic resonator may be used. To drive the device from an external clock source, XTAL2 should be left unconnected while XTAL1 is driven as shown in Figure 2.For the Timer Oscillator pins, PC6(OSC1) and PC7(OSC2),the crystal is connected directly between the pins. No external capacitors are needed. The oscillator is optimized for use with a 32,768Hz watch crystal. An external clock signal applied to this pin goes through the same amplifier having a bandwidth of 256kHz. The external clock signal should therefore be in the interval 0Hz - 256kHz.Table 1. Memory Size SummaryPart Flash EEPROM SRAM A T90S44344K bytes 256 bytes 256 bytes A T90S85358K bytes512 bytes512 bytes元器件交易网AT90S/LS4434 and AT90S/LS85354Figure 1. Oscillator Connections Figure 2. External Clock Drive ConfigurationArchitectural OverviewThe fast-access register file concept contains 32 x 8-bit general purpose working registers with a single clock cycle access time. This means that during one single clock cycle,one Arithmetic Logic Unit (ALU) operation is executed. Two operands are output from the register file, the operation is executed, and the result is stored back in the register file -in one clock cycle.Six of the 32 registers can be used as three 16-bits indirect address register pointers for Data Space addressing -enabling efficient address calculations. One of the three address pointers is also used as the address pointer for the constant table look up function. These added function reg-isters are the 16-bits X-register, Y-register and Z-register.Figure 3. The A T90S4434/8535 AVREnhanced RISC Architecture元器件交易网AT90S/LS4434 and AT90S/LS85355The ALU supports arithmetic and logic functions between registers or between a constant and a register. Single reg-ister operations are also executed in the ALU. Figure 3shows the AT90S4434/8535 AVR Enhanced RISC micro-controller architecture.In addition to the register operation, the conventional mem-ory addressing modes can be used on the register file as well. This is enabled by the fact that the register file is assigned the 32 lowermost Data Space addresses ($00 -$1F), allowing them to be accessed as though they were ordinary memory locations.The I/O memory space contains 64 addresses for CPU peripheral functions as Control Registers, Timer/Counters,A/D-converters, and other I/O functions. The I/O Memory can be accessed directly, or as the Data Space locations following those of the register file, $20 - $5F.The AVR uses a Harvard architecture concept - with sepa-rate memories and buses for program and data. The pro-gram memory is executed with a single level pipelining.While one instruction is being executed, the next instruction is pre-fetched from the program memory. This concept enables instructions to be executed in every clock cycle.The program memory is in-system downloadable Flash memory.With the relative jump and call instructions, the whole 2K/4K address space is directly accessed. Most AVR instructions have a single 16-bit word format. Every pro-gram memory address contains a 16- or 32-bit instruction.During interrupts and subroutine calls, the return address program counter (PC) is stored on the stack. The stack is effectively allocated in the general data SRAM, and conse-quently the stack size is only limited by the total SRAM size and the usage of the SRAM. All user programs must initial-ize the SP in the reset routine (before subroutines or inter-rupts are executed). The 9-bit stack pointer SP is read/write accessible in the I/O space.The 256/512 bytes data SRAM can be easily accessed through the five different addressing modes supported in the AVR architecture.The memory spaces in the AVR architecture are all linear and regular memory maps.Figure 4. Memory Maps元器件交易网AT90S/LS44346AT90S4434/8535 Register SummaryAddressNameBit 7Bit 6Bit 5Bit 4Bit 3Bit 2Bit 1Bit 0Page$3F ($5F)SREG I T H S V N Z C 21$3E ($5E)SPH ------SP9SP822$3D ($5D)SPLSP7SP6SP5SP4SP3SP2SP1SP022$3C ($5C)Reserved $3B ($5B)GIMSK INT1INT0------28$3A ($5A)GIFR INTF1INTF028$39 ($59)TIMSK OCIE2TOIE2TICIE1OCIE1A OCIE1B TOIE1-TOIE029$38 ($58)TIFROCF2TOV2ICF1OCF1AOCF1BTOV1-TOV030$37 ($57)Reserved $36 ($56)Reserved $35 ($55)MCUCR -SESM1SM0ISC11ISC10ISC01ISC0031$34 ($54)MCUSR ------EXTRF PORF 27$33 ($53)TCCR0-----CS02CS01CS0035$32 ($52)TCNT0 Timer/Counter0 (8 Bits)36$31 ($51)Reserved $30 ($50)Reserved $2F ($4F)TCCR1A COM1A1COM1A0COM1B1COM1B0--PWM11PWM1038$2E ($4E)TCCR1B ICNC1ICES1--CTC1CS12CS11CS1039$2D ($4D)TCNT1H Timer/Counter1 - Counter Register High Byte 40$2C ($4C)TCNT1L Timer/Counter1 - Counter Register Low Byte40$2B ($4B)OCR1AH Timer/Counter1 - Output Compare Register A High Byte 41$2A ($4A)OCR1AL Timer/Counter1 - Output Compare Register A Low Byte 41$29 ($49)OCR1BH Timer/Counter1 - Output Compare Register B High Byte 41$28 ($48)OCR1BL Timer/Counter1 - Output Compare Register B Low Byte 41$27 ($47)ICR1H Timer/Counter1 - Input Capture Register High Byte 41$26 ($46)ICR1L Timer/Counter1 - Input Capture Register Low Byte41$25 ($45)TCCR2-PWM2COM21COM20CTC2CS22CS21CS2045$24 ($44)TCNT2Timer/Counter2 (8 Bits)46$23 ($43)OCR2Timer/Counter2 Output Compare Register46$22 ($42)ASSR ----AS2TCN2UB OCR2UB TCR2UB 48$21 ($41)WDTCR ---WDTOEWDE WDP2WDP1WDP050$20 ($40)Reserved $1F ($3F)EEARH EEAR9$1E ($3E)EEARL EEAR7EEAR6EEAR5EEAR4EEAR3EEAR2EEAR1EEAR051$1D ($3D)EEDR EEPROM Data Register51$1C ($3C)EECR ----EERIE EEMWE EEWE EERE 52$1B ($3B)PORTA PORTA7PORTA6PORTA5PORTA4PORTA3PORTA2PORTA1PORTA070$1A ($3A)DDRA DDA7DDA6DDA5DDA4DDA3DDA2DDA1DDA070$19 ($39)PINA PINA7PINA6PINA5PINA4PINA3PINA2PINA1PINA070$18 ($38)PORTB PORTB7PORTB6PORTB5PORTB4PORTB3PORTB2PORTB1PORTB072$17 ($37)DDRB DDB7DDB6DDB5DDB4DDB3DDB2DDB1DDB072$16 ($36)PINB PINB7PINB6PINB5PINB4PINB3PINB2PINB1PINB072$15 ($35)PORTC PORTC7PORTC6PORTC5PORTC4PORTC3PORTC2PORTC1PORTC078$14 ($34)DDRC DDC7DDC6DDC5DDC4DDC3DDC2DDC1DDC078$13 ($33)PINC PINC7PINC6PINC5PINC4PINC3PINC2PINC1PINC078$12 ($32)PORTD PORTD7PORTD6PORTD5PORTD4PORTD3PORTD2PORTD1PORTD081$11 ($31)DDRD DDD7DDD6DDD5DDD4DDD3DDD2DDD1DDD081$10 ($30)PIND PIND7PIND6PIND5PIND4PIND3PIND2PIND1PIND081$0F ($2F)SPDR SPI Data Register 57$0E ($2E)SPSR SPIF WCOL ------56$0D ($2D)SPCR SPIE SPE DORD MSTR CPOL CPHA SPR1SPR056$0C ($2C)UDR UART I/O Data Register 60$0B ($2B)USR RXC TXC UDRE FE OR ---60$0A ($2A)UCR RXCIE TXCIE UDRIE RXEN TXEN CHR9RXB8TXB861$09 ($29)UBRR UART Baud Rate Register $08 ($28)ACSR ACD -ACO ACI ACIE ACIC ACIS1ACIS067$07 ($27)ADMUX -----MUX2MUX1MUX067$06 ($26)ADCSR ADEN ADSC ADFR ADIF ADIE ADPS2ADPS1ADPS067$05 ($25)ADCH ------ADC9ADC868$04 ($24)ADCL ADC7ADC6ADC5ADC4ADC3ADC2ADC1ADC068$03 ($20)Reserved $02 ($22)Reserved $01 ($21)Reserved $00 ($20)Reserved元器件交易网AT90S/LS4434 and AT90S/LS85357AT90S4434/8535 Instruction Set SummaryMnemonicsOperandsDescriptionOperationFlags#ClocksARITHMETIC AND LOGIC INSTRUCTIONS ADD Rd, Rr Add two Registers Rd ← Rd + Rr Z,C,N,V,H 1ADC Rd, Rr Add with Carry two Registers Rd ← Rd + Rr + C Z,C,N,V,H 1ADIW Rdl,K Add Immediate to Word Rdh:Rdl ← Rdh:Rdl + K Z,C,N,V,S 2SUB Rd, Rr Subtract two Registers Rd ← Rd - Rr Z,C,N,V,H 1SUBI Rd, K Subtract Constant from Register Rd ← Rd - K Z,C,N,V,H 1SBC Rd, Rr Subtract with Carry two Registers Rd ← Rd - Rr - C Z,C,N,V,H 1SBCI Rd, K Subtract with Carry Constant from Reg.Rd ← Rd - K - C Z,C,N,V,H 1SBIW Rdl,K Subtract Immediate from Word Rdh:Rdl ← Rdh:Rdl - K Z,C,N,V,S 2AND Rd, Rr Logical AND Registers Rd ← Rd • Rr Z,N,V 1ANDI Rd, K Logical AND Register and Constant Rd ← Rd • K Z,N,V 1OR Rd, Rr Logical OR Registers Rd ← Rd v Rr Z,N,V 1ORI Rd, K Logical OR Register and Constant Rd ← Rd v K Z,N,V 1EOR Rd, Rr Exclusive OR Registers Rd ← Rd ⊕ Rr Z,N,V 1COM Rd One’s Complement Rd ← $FF − Rd Z,C,N,V 1NEG Rd Two’s Complement Rd ← $00 − Rd Z,C,N,V,H 1SBR Rd,K Set Bit(s) in Register Rd ← Rd v KZ,N,V 1CBR Rd,K Clear Bit(s) in Register Rd ← Rd • ($FF - K)Z,N,V 1INC Rd Increment Rd ← Rd + 1Z,N,V 1DEC Rd Decrement Rd ← Rd − 1 Z,N,V 1TST Rd Test for Zero or Minus Rd ← Rd • Rd Z,N,V 1CLR Rd Clear Register Rd ← Rd ⊕ Rd Z,N,V 1SER Rd Set Register Rd ← $FF None 1BRANCH INSTRUCTIONS RJMP k Relative Jump PC ← PC + k + 1None 2IJMP Indirect Jump to (Z)PC ← Z None 2RCALL k Relative Subroutine Call PC ← PC + k + 1None 3ICALL Indirect Call to (Z)PC ← Z None 3RET Subroutine Return PC ← STACK None 4RETI Interrupt Return PC ← STACK I4CPSE Rd,Rr Compare, Skip if Equal if (Rd = Rr) PC ← PC + 2 or 3None1 / 2CP Rd,Rr Compare Rd − Rr Z, N,V,C,H 1 CPC Rd,Rr Compare with Carry Rd − Rr − C Z, N,V,C,H 1CPI Rd,K Compare Register with Immediate Rd − K Z, N,V,C,H 1SBRC Rr, b Skip if Bit in Register Cleared if (Rr(b)=0) PC ← PC +2 or3 None 1 / 2SBRS Rr, b Skip if Bit in Register is Set if (Rr(b)=1) PC ← PC + 2 or 3None 1 / 2SBIC P, b Skip if Bit in I/O Register Cleared if (P(b)=0) PC ← PC + 2 or 3 None 1 / 2SBIS P, b Skip if Bit in I/O Register is Set if (P(b)=1) PC ← PC + 2 or 3None 1 / 2BRBS s, k Branch if Status Flag Set if (SREG(s) = 1) then PC ←PC+k + 1None 1 / 2BRBC s, k Branch if Status Flag Cleared if (SREG(s) = 0) then PC ←PC+k + 1None 1 / 2BREQ k Branch if Equal if (Z = 1) then PC ← PC + k + 1None 1 / 2BRNE k Branch if Not Equal if (Z = 0) then PC ← PC + k + 1None 1 / 2BRCS k Branch if Carry Set if (C = 1) then PC ← PC + k + 1None 1 / 2BRCC k Branch if Carry Cleared if (C = 0) then PC ← PC + k + 1None 1 / 2BRSH k Branch if Same or Higher if (C = 0) then PC ← PC + k + 1None 1 / 2BRLO k Branch if Lower if (C = 1) then PC ← PC + k + 1None 1 / 2BRMI k Branch if Minus if (N = 1) then PC ← PC + k + 1None 1 / 2BRPL k Branch if Plus if (N = 0) then PC ← PC + k + 1None 1 / 2BRGE k Branch if Greater or Equal, Signed if (N ⊕ V= 0) then PC ← PC + k + 1None 1 / 2BRLT k Branch if Less Than Zero, Signed if (N ⊕ V= 1) then PC ← PC + k + 1None 1 / 2BRHS k Branch if Half Carry Flag Set if (H = 1) then PC ← PC + k + 1None 1 / 2BRHC k Branch if Half Carry Flag Cleared if (H = 0) then PC ← PC + k + 1None 1 / 2BRTS k Branch if T Flag Set if (T = 1) then PC ← PC + k + 1None 1 / 2BRTC k Branch if T Flag Cleared if (T = 0) then PC ← PC + k + 1None 1 / 2BRVS k Branch if Overflow Flag is Set if (V = 1) then PC ← PC + k + 1None 1 / 2BRVC k Branch if Overflow Flag is Cleared if (V = 0) then PC ← PC + k + 1None 1 / 2BRIE k Branch if Interrupt Enabled if ( I = 1) then PC ← PC + k + 1None 1 / 2BRID k Branch if Interrupt Disabled if ( I = 0) then PC ← PC + k + 1None1 / 2元器件交易网AT90S/LS4434 and AT90S/LS85358Mnemonics Operands Description Operation Flags#ClocksDATA TRANSFER INSTRUCTIONS MOV Rd, Rr Move Between Registers Rd ← Rr None1LDI Rd, K Load Immediate Rd ← KNone 1LD Rd, X Load Indirect Rd ← (X)None 2LD Rd, X+Load Indirect and Post-Inc.Rd ← (X), X ← X + 1None 2LD Rd, - X Load Indirect and Pre-Dec.X ← X - 1, Rd ← (X)None 2LD Rd, Y Load Indirect Rd ← (Y)None 2LD Rd, Y+Load Indirect and Post-Inc.Rd ← (Y), Y ← Y + 1None 2LD Rd, - Y Load Indirect and Pre-Dec.Y ← Y - 1, Rd ← (Y)None 2LDD Rd,Y+q Load Indirect with Displacement Rd ← (Y + q)None 2LD Rd, Z Load Indirect Rd ← (Z)None 2LD Rd, Z+Load Indirect and Post-Inc.Rd ← (Z), Z ← Z+1None 2LD Rd, -Z Load Indirect and Pre-Dec.Z ← Z - 1, Rd ← (Z)None 2LDD Rd, Z+q Load Indirect with Displacement Rd ← (Z + q)None 2LDS Rd, k Load Direct from SRAM Rd ← (k)None 2ST X, Rr Store Indirect (X) ← Rr None 2ST X+, Rr Store Indirect and Post-Inc.(X) ← Rr, X ← X + 1None 2ST - X, Rr Store Indirect and Pre-Dec.X ← X - 1, (X) ← Rr None 2ST Y, Rr Store Indirect (Y) ← Rr None 2ST Y+, Rr Store Indirect and Post-Inc.(Y) ← Rr, Y ← Y + 1None 2ST - Y, Rr Store Indirect and Pre-Dec.Y ← Y - 1, (Y) ← Rr None 2STD Y+q,Rr Store Indirect with Displacement (Y + q) ← Rr None 2ST Z, Rr Store Indirect (Z) ← Rr None 2ST Z+, Rr Store Indirect and Post-Inc.(Z) ← Rr, Z ← Z + 1None 2ST -Z, Rr Store Indirect and Pre-Dec.Z ← Z - 1, (Z) ← Rr None 2STD Z+q,Rr Store Indirect with Displacement (Z + q) ← Rr None 2STS k, Rr Store Direct to SRAM (k) ← Rr None 2LPM Load Program Memory R0 ← (Z)None 3IN Rd, P In Port Rd ←P None 1OUT P, Rr Out Port P ← Rr None 1PUSH Rr Push Register on Stack STACK ← Rr None 2POP RdPop Register from Stack Rd ← STACKNone 2BIT AND BIT-TEST INSTRUCTIONS SBI P,b Set Bit in I/O Register I/O(P,b) ← 1None 2CBI P,b Clear Bit in I/O Register I/O(P,b) ←None 2LSL Rd Logical Shift Left Rd(n+1) ← Rd(n), Rd(0) ← 0Z,C,N,V 1LSR Rd Logical Shift Right Rd(n) ← Rd(n+1), Rd(7) ← 0Z,C,N,V 1ROL Rd Rotate Left Through Carry Rd(0)←C,Rd(n+1)← Rd(n),C ←Rd(7)Z,C,N,V 1ROR Rd Rotate Right Through Carry Rd(7)←C,Rd(n)← Rd(n+1),C ←Rd(0)Z,C,N,V 1ASR Rd Arithmetic Shift Right Rd(n) ← Rd(n+1), n=0..6Z,C,N,V 1SWAP Rd Swap Nibbles Rd(3..0)←Rd(7..4),Rd(7..4)←Rd(3..0)None 1BSET s Flag Set SREG(s) ← 1SREG(s)1BCLR s Flag Clear SREG(s) ← 0 SREG(s)1BST Rr, b Bit Store from Register to T T ← Rr(b)T 1BLD Rd, b Bit load from T to Register Rd(b) ← T None 1SEC Set Carry C ←1C 1CLC Clear Carry C ← 0 C 1SEN Set Negative Flag N ← 1N 1CLN Clear Negative Flag N ← 0 N 1SEZ Set Zero Flag Z ←1Z 1CLZ Clear Zero Flag Z ← 0 Z 1SEI Global Interrupt Enable I ← 1I 1CLI Global Interrupt Disable I ← 0 I 1SES Set Signed Test Flag S ←1S 1CLS Clear Signed Test Flag S ← 0 S 1SEV Set Twos Complement Overflow.V ← 1V 1CLV Clear Twos Complement Overflow V ← 0 V 1SET Set T in SREG T ←1T 1CLT Clear T in SREG T ← 0 T 1SEH Set Half Carry Flag in SREG H ← 1H 1CLH Clear Half Carry Flag in SREG H ← 0 H 1NOP No Operation None 1SLEEP Sleep (see specific descr. for Sleep function)None 3WDRWatchdog Reset (see specific descr. for WDR/timer)None1元器件交易网AT90S/LS4434 and AT90S/LS85359Ordering InformationPower Supply Speed (MHz)Ordering Code Package Operation Range 2.7 - 6.0V4A T90LS4434-4AC A T90LS4434-4JC A T90LS4434-4PC 44A 44J 40P6Commercial (0°C to 70°C)A T90LS4434-4AI A T90LS4434-4JI A T90LS4434-4PI44A 44J 40P6Industrial (-40°C to 85°C)4.0 - 6.0V8A T90S4434-8AC A T90S4434-8JC A T90S4434-8JC 44A 44J 40P6Commercial (0°C to 70°C)A T90S4434-8AI A T90S4434-8JI A T90S4434-8PI44A 44J 40P6Industrial (-40°C to 85°C)2.7 - 6.0V4A T90LS8535-4AC A T90LS8535-4JC A T90LS8535-4PC 44A 44J 40P6Commercial (0°C to 70°C)A T90LS8535-4AI A T90LS8535-4JI A T90LS8535-4PI44A 44J 40P6Industrial (-40°C to 85°C)4.0 - 6.0V8A T90S8535-8AC A T90S8535-8JC A T90S8535-8JC 44A 44J 40P6Commercial (0°C to 70°C)A T90S8535-8AI A T90S8535-8JI A T90S8535-8PI44A 44J 40P6Industrial (-40°C to 85°C)Package Type44A 44 Lead, Thin (1.0mm) Plastic Gull Wing Quad Flat Package (TQFP)44J 44 Lead, Plastic J-Leaded Chip Carrier (PLCC)40P640 Lead, 0.600" Wide, Plastic Dual in Line Package (PDIP)元器件交易网10Packaging InformationAT90S/LS4434 and AT90S/LS8535元器件交易网。

NO.ISSUED:71084MODELHOSHIZAKICUBELET ICE DISPENSERPARTS LISTDCM-450BAE (HA)DCM-450BWE (HA)NOV. 19, 1998REVISED:OCT. 13, 1999DCM-450BAE G-0Dec., 1996G-1June, 1997H-0Dec., 1997 DCM-450BWE G-0Dec., 1996G-1June, 1997H-0Jan., 1998MATERIAL ABBREVIATIONSALUMINUMAL= AluminumCOPPERCU= CopperPLASTICABS=Acrylonitrile -butadiene - styreneAC=PolyacetalEV A=Ethylene vinyl acetateP A=Polyamide = NylonPC=PolycarbonatePE=PolyethylenePES=PolyesterPETP=Polyethylene terephthalate = TetlonPP=PolypropylenePS=PolystyrenePTFE=Polytetrafluoroethylene = TeflonPUR=PolyurethanePVC=Polyvinyl chlorideRUBBERVN=Vinyl NitrileEPDM=EP rubberNBR=Nitrile butadiene rubberNR=Natural rubberNP=NeopreneSI.R=Silicone rubberSY.R=Synthetic rubberEPH=EpichlorohydrinSTEELGS=Galvanized steelSS=Stainless steelPS=Plated steelP AS=Primed steelAUXILIARY CODEEx.1K-0Parts are the same as in the preceding(Note) - = Part deleted.year.x = Part deleted and replaced"K" is the tenth in alphabetical order with "I" by "o" part.skipped. So, "K" indicates "1990".o = New part for "x"Ex.2A-1 in the same auxiliary code."A" is the first in alphabeticalorder. So, "A" indicates "1991".Ex.3A-2Each time a part is changedin a year, this number advances.FASTENER ABBREVIATION LISTST Phillips Truss Machine ScrewSP Phillips Pan Head Machine ScrewSF Phillips Flat Head Machine ScrewSS Phillips Pan Head Machine Screw with Split Lock WasherSW Phillips Pan Head Machine Screw with Split Lock Washerand Flat WasherT1Phillips Truss Head Tapping Screw (Correspond to Type A)T2Phillips Truss Head Tapping Screw (Correspond to Type B)T3Phillips Truss Head Tapping Screw (Correspond to Type C)FT Phillips Truss Head Tapping Screw (Special)BH Hexagon Head BoltBC Socket Head Cap ScrewBS Hexagon Bolt with Split WasherBW Hexagon Bolt with Split Washer and Flat WasherBF Hexagon Flange BoltBR Cross-Recessed Hexagon Head BoltBRW Cross-Recessed Hexagon Head Bolt with Split Lock Washerand Flat WasherWL Split Lock WasherWT External Tooth WasherWF Flat WasherWS Spring WasherNH Hexagon NutNF Hexagon Flange NutNC Hexagon Cap NutNS Square NutNW Wing NutEx.ST0308S(Phillips Truss Head Machine Screw3x8, made of stainless steel)Material None:Plated SteelLength (mm)S:Stainless SteelNominal Diameter (mm)B:BrassForm of Head P:PlasticDescription(Note) Second character is numerical except toe list.Ex. S1, S2, B3 etc.And abbreviations and names are shown under the illustration.HADCM-450BWE A. ICE DISPENSER ASSEMBLY (1/2) G-0, G-1, H-0HADCM-450BWE A. ICE DISPENSER ASSEMBLY (2/2) G-0, G-1, H-0HADCM-450BAE, BWE B. FRAME ASSEMBLY G-0, G-1HADCM-450BAE, BWE C. EVAPORATOR ASSEMBLY G-0, G-1HADCM-450BAE D. REFRIGERATION CIRCUIT G-0, G-1, H-0HADCM-450BWE D. REFRIGERATION CIRCUIT G-0, G-1, H-0HADCM-450BAE, BWE E. WATER CIRCUIT G-1, H-0HADCM-450BAE, BWE F. BIN ASSEMBLY G-0, G-1, H-0HADCM-450BAE, BWE G. GEAR MOTOR ASSEMBLY G-0, G-1, H-0HADCM-450BAE, BWE H. GEAR MOTOR ASSEMBLY G-0, G-1, H-0HADCM-450BAE, BWE J. SHUTTER ASSEMBLY G-0, G-1, H-0HADCM-450BAE, BWE K. CONTROL BOX ASSEMBLY G-0, G-1, H-0HADCM-450BAE, BWE L. MIDDLE FRONT PANEL ASSEMBLY G-0, G-1, H-0HADCM-450BAE M. LABEL LOCATION G-0, G-1, H-0HADCM-450BWE M. LABEL LOCATION G-0, G-1, H-0HADCM-450BAE N. BIN TOP ASSEMBLY G-0, G-1, H-0。