V7-7B17D8;中文规格书,Datasheet资料

Features• Dual N-Channel MOSFET • Low On-Resistance • Very Low Gate Threshold Voltage, 1.2V max • Low Input Capacitance • Fast Switching Speed • Low Input/Output Leakage • Ultra-Small Surface Mount Package • ESD Protected Gate • Lead Free By Design/RoHS Compliant (Note 2) • "Green" Device (Note 3)Mechanical Data• Case: SOT-563 • Case Material: Molded Plastic, “Green” Molding Compound.UL Flammability Classification Rating 94V-0 • Moisture Sensitivity: Level 1 per J-STD-020 • Terminal Connections: See Diagram • Terminals: Finish – Matte Tin annealed over Copperleadframe. Solderable per MIL-STD-202, Method 208 • Marking Information: See Page 3 • Ordering Information: See Page 3 • Weight: 0.006 grams (approximate)Maximum Ratings @T A = 25°C unless otherwise specifiedCharacteristic Symbol Value UnitDrain Source Voltage V DSS30 V Gate-Source Voltage V GSS ±10 V Drain Current (Note 1)I D400 mAThermal Characteristics @T A = 25°C unless otherwise specifiedTotal Power Dissipation (Note 1)P D 400 mW Thermal Resistance, Junction to Ambient (Note 1) R θJA 313 °C/W Operating and Storage Temperature RangeT J , T STG -55 to +150 °CElectrical Characteristics @T A = 25°C unless otherwise specifiedCharacteristic SymbolMin Typ Max Unit TestCondition OFF CHARACTERISTICS (Note 4) Drain-Source Breakdown Voltage BV DSS 30 ⎯ ⎯ V V GS = 0V, I D = 250μA Zero Gate Voltage Drain Current @ T C = 25°C I DSS ⎯ ⎯ 1 μA V DS = 30V, V GS = 0V Gate-Body LeakageI GSS ⎯ ⎯ ±10 ±500μA nAV GS = ±10V, V DS = 0V V GS = ±5V, V DS = 0VON CHARACTERISTICS (Note 4) Gate Threshold VoltageV GS(th) 0.6 ⎯ 1.2 V V DS = V GS , I D = 250μAStatic Drain-Source On-Resistance R DS (ON)⎯ ⎯ ⎯ ⎯ ⎯ ⎯ 2.21.5 1.2 Ω V GS = 1.8V, I D = 20mA V GS =2.5V, I D = 20mA V GS = 4.0V, I D = 100mAForward Transconductance|Y fs | 100 ⎯ ⎯ mS V DS =10V, I D = 0.1ASource-Drain Diode Forward Voltage V SD 0.5 ⎯ 1.4 V V GS = 0V, I S = 115mA DYNAMIC CHARACTERISTICS Input Capacitance C iss ⎯ 39 ⎯ pF V DS = 3V, V GS = 0V f = 1.0MHzOutput CapacitanceC oss ⎯ 10 ⎯ pF Reverse Transfer Capacitance C rss ⎯ 3.6 ⎯ pF Switching TimeTurn-on Time t on ⎯ 11 ⎯ nS V DD = 5V, I D = 10 mA, V GS = 5VTurn-off Timet off⎯51⎯nSNotes:1. Device mounted on FR-4 PCB, 1 inch x 0.85 inch x 0.062 inch; pad layout as shown on Diodes Inc. suggested pad layout document AP02001, whichcan be found on our website at . 2. No purposefully added lead.3. Diodes Inc.’s “Green” policy can be found on our website at /products/lead_free/index.php.4. Short duration pulse test used to minimize self-heating effect.SOT-563TOP VIEWSchematic and Transistor DiagramESD PROTECTED0.60.81.01.21.41.61.8T , AMBIENT TEMPERATURE (C°)A R , S T A T I C D R A I N -S O U R C E O N -R E S I S T A N C E (N O R M A L I Z E D )D S (O N )Fig. 7 Normalized Static Drain-Source On-Resistancevs. Ambient Temperature1020304050V , DRAIN-SOURCE VOLTAGE (V)DS C , C A P A C I T A N C E (p F )T Fig. 10 Typical CapacitanceOrdering Information (Note 5)Part Number Case Packaging DMN32D2LV-7SOT-563 3000/Tape & ReelNotes: 5. For packaging details, go to our website at /datasheets/ap02007.pdf.Marking Information (Note 6)Notes: 6. Package is non-polarized. Parts may be on reel in orientation illustrated, 180° rotated, or mixed (both ways).Date Code KeyYear 2007 2008 2009 2010 2011 2012Code U V W X Y ZMonth Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Code 1 2 3 4 5 6 7 8 9 O N DDV = Product Type Marking Code (See Note 6) YM = Date Code Marking Y = Year (ex: U = 2007)M = Month (ex: 9 = September)DV YMS 1D 2G 1D 1S 2G 2Package Outline Dimensions Suggested Pad LayoutSOT-563Dim Min Max Typ A 0.15 0.30 0.20 B 1.10 1.25 1.20 C 1.55 1.70 1.60 D - - 0.50 G 0.90 1.10 1.00 H 1.50 1.70 1.60 K 0.55 0.60 0.60 L 0.100.30 0.20 M 0.10 0.18 0.11 All Dimensions in mmDimensions Value (in mm)Z 2.2 G 1.2 X 0.375 Y 0.5 C1 1.7 C2 0.5XZYC1C2C2GIMPORTANT NOTICEDIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated website, harmless against all damages.Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales channel. Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized application.Products described herein may be covered by one or more United States, international or foreign patents pending. Product names and markings noted herein may also be covered by one or more United States, international or foreign trademarks.LIFE SUPPORTDiodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein:A. Life support devices or systems are devices or systems which:1. are intended to implant into the body, or2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in thelabeling can be reasonably expected to result in significant injury to the user.B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause thefailure of the life support device or to affect its safety or effectiveness.Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems.Copyright © 2010, Diodes Incorporated分销商库存信息: DIODESDMN32D2LV-7。

Copyright © Cirrus Logic, Inc. 2006CS4373ALow-power, High-performance ∆Σ Test DACDEC ‘06TABLE OF CONTENTS1. CHARACTERISTICS AND SPECIFICATIONS (4)2. GENERAL DESCRIPTION (16)2.1 Digital Inputs (16)2.2 Analog Outputs (16)2.3 Multiple Operational Modes (16)2.4 Low Power (16)3. SYSTEM DIAGRAMS (17)4. POWER MODES (18)4.1 Power Down (18)4.2 Sleep Modes (18)4.3 AC Test Modes (18)4.4 DC Test Modes (18)5. OPERATIONAL MODES (19)5.1 Sleep Modes (19)5.2 AC Test Modes (19)5.2.1 AC Differential (19)5.2.2 AC Common Mode (20)5.2.3 AC Stability (20)5.3 DC Test Modes (20)5.3.1 DC Common Mode (20)5.3.2 DC Differential (20)6. DIGITAL INPUTS (22)6.1 TDATA Connection (22)6.2 MCLK Connection (22)6.3 MSYNC Connection (22)6.4 GPIO Connections (23)7. ANALOG OUTPUTS (24)7.1 Differential Signals (24)7.2 Analog Output Attenuation (24)7.3 OUT± Precision Output (25)7.4 BUF± Buffered Output (25)7.5 CAP± Analog Output (25)8. VOLTAGE REFERENCE (26)8.1 VREF Power Supply (26)8.2 VREF RC Filter (26)8.3 VREF PCB Routing (26)8.4 VREF Input Impedance (27)8.5 VREF Accuracy (27)8.6 VREF Independence (27)9. POWER SUPPLIES (28)9.1 Power Supply Bypassing (28)9.2 PCB Layers and Routing (28)9.3 Power Supply Rejection (28)9.4 SCR Latch-up (29)9.5 DC-DC Converters (29)10. TERMINOLOGY (30)11. PIN DESCRIPTION (31)12. PACKAGE DIMENSIONS (33)13. ORDERING INFORMATION (34)14. ENVIRONMENTAL, MANUFACTURING, & HANDLING INFORMATION (34)15. REVISION HISTORY (34)LIST OF FIGURES Figure 1. Digital Input Rise and Fall Times (12)Figure 2. System Timing Diagram (14)Figure 3. MCLK / MSYNC Timing Detail (14)Figure 4. CS4373A Block Diagram (16)Figure 6. Connection Diagram (17)Figure 5. System Diagram (17)Figure 7. Power Mode Diagram (18)Figure 8. AC Differential Modes (19)Figure 9. AC Common Mode (20)Figure 10. DC Test Modes (21)Figure 11. Digital Inputs (22)Figure 12. Analog Outputs (24)Figure 13. Voltage Reference Circuit (26)Figure 14. Power Supply Diagram (28)LIST OF TABLES Table 1. Selections for Operational Mode and Attenuation (4)Table 2. Operational Modes (19)Table 3. Output Attenuation Settings (24)1.CHARACTERISTICS AND SPECIFICATIONS•Min / Max characteristics and specifications are guaranteed over the Specified Operating Conditions . •Typical performance characteristics and specifications are measured at nominal supply voltages and T A = 25°C.•GND = 0V. Single-ended voltages with respect to GND, differential voltages with respect to opposite half.•Device is connected as shown in Figure 6 on page 17, unless otherwise noted.SPECIFIED OPERATING CONDITIONSNotes: 1.VA- must always be the most-negative input voltage to avoid potential SCR latch-up conditions.2.By design, a 2.500V voltage reference input results in the best signal-to-noise performance.3.Full-scale accuracy is directly proportional to the voltage reference absolute accuracy.4.VREF inputs must satisfy: VA-<VREF-<VREF+<VA+.ParameterSymbol Min NomMax Unit Bipolar Power Supplies Positive Analog ±2%VA+ 2.45 2.50 2.55V Negative Analog (Note 1) ±2%VA--2.45-2.50-2.55V Positive Digital±3%VD3.203.303.40VVoltage Reference Input {VREF+} - {VREF-}(Note 2, 3)VREF - 2.500-V VREF-(Note 4)VREF--VA --VThermalAmbient Operating TemperatureIndustrial (-IS,-ISZ)T A-402585°CModes of OperationSelectionMODE[2:0]Mode Description 0000Sleep mode.1001AC OUT and BUF outputs. 2010AC OUT only, BUF high-z. 3011AC BUF only, OUT high-z. 4100DC common mode output. 5101DC differential output. 6110AC common mode output. 7111Sleep mode.AttenuationSelectionATT[2:0]AttenuationdB 00001/10dB 10011/2-6.02dB 20101/4-12.04dB 30111/8-18.06dB 41001/16-24.08dB 51011/32-30.10 dB 61101/64-36.12dB 7111reservedreservedTable 1. Selections for Operational Mode and AttenuationTEMPERATURE CONDITIONSABSOLUTE MAXIMUM RATINGSWARNING:Operation at or beyond these limits may result in permanent damage to the device.Normal operation is not guaranteed at these extremes.Notes: 5.Transient currents up to ±100 mA will not cause SCR latch-up.ParameterSymbol Min Typ Max Unit Ambient Operating Temperature T A -40-+85ºC Storage Temperature Range T STG -65-150ºC Allowable Junction TemperatureT JCT --125ºC Junction to Ambient Thermal Impedance (4-layer PCB)ΘJA-65-ºC /WParameterSymbol Min Max ParameterDC Power SuppliesPositive Analog Negative AnalogDigitalVA+VA-VD -0.5-6.8-0.5 6.80.56.8V V V Analog Supply Differential (VA+)-(VA-)VA DIFF - 6.8V Digital Supply Differential (VD)-(VA-)VD DIFF -7.6V Input Current, Power Supplies (Note 5)I IN -±50mA Input Current, Any Pin Except Supplies (Note 5)I IN -±10mA Output Current (Note 5)I OUT -±25mA Power Dissipation PDN -500mW Analog Input Voltages V INA (VA-)-0.5(VA+)+0.5V Digital Input VoltagesV IND-0.5(VD)+0.5VANALOG CHARACTERISTICSNotes: 6.Maximum integrated noise over the measurement bandwidth for the voltage reference device attachedto the VREF ± inputs.7.Load on the precision OUT ± outputs is normally from the CS3301A /CS3302A amplifiers, which have1G Ω/1T Ω typical input impedance and 18pF typical input capacitance.8.Guaranteed by design and/or characterization.9.Single-ended output impedance at 1/64 is different for BUF+ and BUF- due to the output attenuatorarchitecture.ParameterSymbol Min TypMaxUnitVREF Input {VREF+} - {VREF-}(Note 2, 3)VREF - 2.500-V VREF-(Note 4)VREF--VA --V VREF Input Current, AC modes VREF IAC -80-µA VREF Input Current, DC modes VREF IDC -40-µA VREF Input Noise (Note 6)VREF IN--1µV rmsAnalog OUT± Output Analog External Load at OUT ±Load Resistance (Note 7, 8)Load CapacitanceR LOUT C LOUT 50----50M ΩpF Differential Output Impedance1/11/21/41/81/161/321/64ZDIF OUT------- 1.410.17.95.13.32.31.7-------k Ωk Ωk Ωk Ωk Ωk Ωk ΩSingle-ended Output Impedance1/11/21/41/81/161/321/64ZSE OUT-------0.77.49.09.49.59.59.4-------k Ωk Ωk Ωk Ωk Ωk Ωk ΩHigh-Z Impedance(Note 8)HZ OUT -3-M ΩCrosstalk to BUF ± High-Z Output (Note 8)XT OUT --120-dB Analog BUF± Output Analog External Load at BUF ±Load Resistance (Note 8)Load CapacitanceR LBUF C LBUF 1----2k ΩnF Differential Output Impedance 1/1 - 1/64ZDIF BUF -6-ΩSingle-ended Output Impedance1/1 - 1/32(Note 9) (BUF-) 1/64(Note 9) (BUF+) 1/64ZSE BUF---3350---ΩHigh-Z Impedance(Note 8)HZ BUF - 4.5-M ΩCrosstalk to OUT ± High-Z Output(Note 8)XT BUF--120-dBAC DIFFERENTIAL MODES 1, 2, 3Notes:10.Maximum amplitude for operation above 100Hz. A reduced amplitude for higher frequencies is requiredto guarantee stability of the low-power delta-sigma architecture.11.Full-scale accuracy compares the defined full-scale 1/1 amplitude to the measured 1/1 amplitude.Specification is for unloaded outputs. Applying a differential load lowers the output amplitude ratiometric to the differential output impedance.12.Relative accuracy compares the measured 1/2,1/4,1/8,1/16,1/32,1/64 amplitude to the measured 1/1mon mode voltage is defined as [(SIG+)+(SIG-)]/2.14.Specification is for the parameter over the specified temperature range and is for the device only. It doesnot include the effects of external components.ParameterSymbol Min Typ Max Unit AC Differential Characteristics Full-scale Differential AC Output1/11/21/41/81/161/321/64VAC FS-------52.51.25625312.5156.2578.125-------V pp V pp V pp mV pp mV pp mV pp mV pp Full-scale Bandwidth (Note 8)VAC BW --100Hz Impulse Amplitude (Note 8, 10)VAC IMP ---20dBfs AC Differential Accuracy Full-scale Accuracy 1/1(Note 3, 11)VAC ABS - 0.5- 0.20.2%FSRelative Accuracy 1/2(Note 12)1/41/81/161/321/64VAC REL- 0.2-----± 0.1± 0.1± 0.1-0.1 ± 0.2- 0.2 ± 0.3- 0.5 ± 0.50.2-----%%%%%%Full-scale Drift(Note 14)VAC TC -25-µV/°C DC Common Mode Characteristics Common Mode (Note 13)VAC CM-(VA-)+2.35-V Common Mode Drift(Note 13, 14)VAC CMTC-300-µV/°CAC DIFFERENTIAL MODES 1, 2, 3 (CONT.)Notes:15.Specification measured using CS3301A amplifier at corresponding gain with the CS5371A /CS5372Amodulator measuring a 430Hz bandwidth. Amplified noise dominates for x16, x32, x64 amplifier gains.16.Buffered outputs (BUF ±) include 1/f noise not present on the precision outputs (OUT ±).17.Tested with a 31.25 Hz sine wave at -1dB amplitude.18.Specification measured using CS3301A amplifier at corresponding gain using the CS5371A /CS5372Amodulator measuring a 430Hz bandwidth. Amplified noise in the harmonic bins dominates THD measurements for x16, x32, x64 amplifier gains.ParameterSymbol Min TypMaxUnitSignal to Noise Signal to Noise 1/1 -> 1x (OUT ± Unloaded)1/2 -> 2x (Note 15)1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64x SNR OUT-------114114114113111108103-------dB dB dB dB dB dB dB Signal to Noise1/1 -> 1x (BUF ± Unloaded, 1k Ω Load)1/2 -> 2x (Note 15, 16)1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64x SNR BUF-------11010610195898377-------dB dB dB dB dB dB dB Total Harmonic Distortion Total Harmonic Distortion 1/1 -> 1x (OUT ± Unloaded)1/2 -> 2x (Note 17, 18)1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64x THD OUT-------- 116- 115- 114- 112- 111- 110- 106- 112------dB dB dB dB dB dB dB Total Harmonic Distortion 1/1 -> 1x (BUF ± Unloaded)1/2 -> 2x (Note 16, 17, 18)1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64x THD BUF-------- 108- 105- 100- 94- 88- 82- 76- 90------dB dB dB dB dB dB dB Total Harmonic Distortion 1/1 -> 1x (BUF ±1k Ω Load)1/2 -> 2x (Note 16, 17, 18)1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64xTHD BUFL-------- 102- 101- 97- 92- 87- 82- 76- 80------dB dB dB dB dB dB dBDC COMMON MODE 4Parameter Symbol Min Typ Max Unit DC Common Mode CharacteristicsCommon Mode Output VDC CM-(VA-)+2.35-V Common Mode Drift(Note 14)VDC CMTC-300-µV/°C DC Common Mode AccuracyCommon Mode Match1/1VDC CMM-5±15mV NoiseNoise(OUT± Unloaded)1/1 -> 1x (Note 15)1/2 -> 2x1/4 -> 4x1/8 -> 8x1/16 -> 16x1/32 -> 32x1/64 -> 64x N OUT-------67777914-------µV rmsµV rmsµV rmsµV rmsµV rmsµV rmsµV rmsNoise(BUF± Unloaded,1kΩ Load) 1/1 -> 1x (Note 15, 16)1/2 -> 2x1/4 -> 4x1/8 -> 8x1/16 -> 16x1/32 -> 32x1/64 -> 64x N BUF-------710173364130257-------µV rmsµV rmsµV rmsµV rmsµV rmsµV rmsµV rmsDC DIFFERENTIAL MODE 5Notes:19.DC differential output is chopper stabilized and includes low-level 32kHz out-of-band noise which isrejected by the digital filter during acquisition.ParameterSymbol Min Typ Max Unit DC Differential Mode Characteristics Full-scale Differential DC Output 1/1(Note 19)1/21/41/81/161/321/64VDC FS------- 2.51.25625312.5156.2578.12539.0625-------V V mV mV mV mV mV DC Differential Accuracy Full-scale Accuracy 1/1(Note 3, 11)VDC ABS -1.0- 0.40.2%FSRelative Accuracy 1/2(Note 12)1/41/81/161/321/64VDC REL- 0.2-----±0.1±0.1-0.1 ±0.4-0.2 ±0.9-0.5 ±1.7-1.0 ±3.60.2-----%%%%%%Full-scale Drift(Note 14)VDC TC -25-µV/°C DC Common Mode Characteristics Common Mode (Note 13)VDC CM-(VA-)+2.35-V Common Mode Drift (Note 13, 14)VDC CMTC -300-µV/°C NoiseNoise (OUT ± Unloaded)1/1 -> 1x (Note 15, 19)1/2 -> 2x 1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64x N OUT-------9999101115-------µV rms µV rms µV rms µV rms µV rms µV rms µV rms Noise (BUF ± Unloaded,1k Ω Load)1/1 -> 1x (Note 15, 16, 19)1/2 -> 2x 1/4 -> 4x 1/8 -> 8x 1/16 -> 16x 1/32 -> 32x 1/64 -> 64xN BUF-------1012183267122265-------µV rms µV rms µV rms µV rms µV rms µV rms µV rms分销商库存信息: CIRRUS-LOGIC CDB5376。

This document was generated on 09/12/2012PLEASE CHECK FOR LATEST PART INFORMATIONPart Number:38700-7303Status:ActiveDescription:8.26mm Pitch Beau™ PCB Terminal Strip, with Mounting Ends, 3 Circuits, with Screw Clamp WasherDocuments:3D ModelRoHS Certificate of Compliance (PDF)Drawing (PDF)GeneralProduct Family Terminal Blocks Series38700ApplicationN/AComponent Type One PieceProduct Name Fixed Mount Barrier Type Barrier Strip UPC800756316802PhysicalCircuits (Loaded)3Circuits (maximum)3Entry AngleHorizontal Lock to Mating Part None Material - MetalBrass Material - Plating MatingTin Material - Plating Termination Tin Net Weight8.950/g Number of Rows 1Orientation Horizontal PC Tail Length 3.56mm PCB Retention Yes Panel MountNoPitch - Mating Interface8.26mm Pitch - Termination Interface 8.26mm Plating min - Mating3.810µm Plating min - Termination 3.810µm Polarized to Mating Part NoShrouded Dual-Barrier StackableYes Surface Mount Compatible (SMC)NoTemperature Range - Operating -40°C to +130°C Termination Interface: Style Through HoleWire Size AWG 12, 14, 16, 18, 20, 22Wire Size mm²0.50 - 2.50ElectricalCurrent - Maximum per Contact 20A Voltage - Maximum300V Material InfoOld Part Number70503-50Reference - Drawing NumbersSales DrawingSD-38700-002Seriesimage - Reference onlyEU RoHSChina RoHSELV and RoHS Compliant REACH SVHC Not ReviewedLow-Halogen Status Not ReviewedNeed more information on product environmental compliance?Email productcompliance@For a multiple part number RoHS Certificate of Compliance, click herePlease visit the Contact Us section for any non-product compliance questions.Search Parts in this Series 38700Series Mates With N/AThis document was generated on 09/12/2012PLEASE CHECK FOR LATEST PART INFORMATION分销商库存信息: MOLEX 0387007303。

V7-1A17D8-048V7-1C17D8-207V7-1C17E9V7-1C27E9V7-1S17D8 V7-2B17D8-201V7-5F17D8V7-6B19D8-057V7-1A17D8-057V7-7B19E9MICRO SWITCH™Premium Miniature Basic Switches Datasheet2What makes our switches better?Certified with CSA, ENEC, and UL for global acceptability Reliable snap-spring mechanism with more than 60 years ofproven service Available with pin plungers, integral levers (fitted two posi-tions), or auxiliary levers to meet equipment requirements Electrical ratings from 0.1 A up to 25 A fordesign flexibility in one package sizeMICRO SWITCH™ V7 SeriesPremium Miniature Basic SwitchesHoneywell’s MICRO SWITCH™ V7 miniature switches are designed for long term-reliability in a rugged switchpackaged with a thermoplastic housing. These switches may be installed in a wide range of applications from simple or precision on/off limits, presence/absence sensing, or embedded in pressure or temperature assemblies.The V7 switch is available as a pin plunger style or with optional integral or auxiliary levers to actuate the switch and offer versatility in the application. The switch requires as little as 0,15 Newtons [approximately ½ ounce] to operate for extremely sensitive applications or an operating force of almost 4 Newtons [14 ounces] where higher forces are required. The V7 switch can reliably control logic level electrical loads from less than 0.1 A to power duty switching up to 25 A. Agency certifications for the MICRO SWITCH™ V7 switches are provided through CSA, ENEC, and UL for global use around the world.COST OPTIMIZATION • RELIABILITYPERFORMANCE • GLOBAL ACCEPTANCEBig performance in a small package.3Features and BenefitsACTUATION ON TIMEMICRO SWITCH™ V7 Series basic switches operate with forces as low as 15 g and carry options to increase to 397 g, and can thereby easily accommodate different actuator mechanisms.RELIABLE PERFORMANCE IN HARSH CONDITIONSSwitches feature industry-leading temperature ranges of -40 °C to 175 °C [-40 °F to 347 °F] to allow for years of reliable performance in harsh conditions.LONG LIFE CYCLE RATINGThe long life cycle rating (up to 10,000,000 cycles ) reduces the need to replace switches over the life of OEM platform applications, therefore reducing total system cost.DESIGN FLEXIBILITYAvailable with pin plungers, integral levers (fitted 2 positions), and auxiliary levers to meet a variety of equipment requirements, MICRO SWITCH™ V7 Series switches also boast electrical ratings from 0.1 A up to 25 A for design flexibility in one package size.Global acceptance: UL, CSA, ENECVENDING MACHINE MOTORSSwitch controls motors or solenoids in vending machines for dispensing of product.MICROWAVE DOOR INTERLOCKSwitch in door interlock of microwave that disconnects power if door opened.OVEN CLEANING LATCHSwitch in door latch for oven clean operation.PRESSURE SWITCH ASSEMBLYPressure switch senses incoming water pressure for power washer.Potential Applications4V7 SeriesPRODUCT NOMENCLATUREV7Switch Type 1Operating Force1Termination Style(Inches)5Electric ratings “W” x “X” only used with “A” Mounting Construction and vice versa 6European ENEC rating requires Mounting Construction code “9” or “0”Electrical Rating 3,6CV7 Series Miniature Circuitry CodeMounting/Construction 4,61Use only if this switch has a special feature.Could be any number.Special Designator7D8Lever Style 2North Europe ——MICRO SWITCH™ Premium Miniature Basic Switches1 Incandescent lamp rating2 XX(Y) - XX = max. rated resistive value in amps, and (Y) = max. rated inductive value in amps3 European ENEC rating requires Mounting Construction code “9” or “0”. See page four, Mounting Construction column5BZ/BA Type[0.87 in]*3,1 mm mtg holes[0.81 in]** 177 °C [350 °F]78V7 SeriesAVAILABLE TERMINALS Quick Connect (QC)D8 Terminals: 0.187 in wide x 0.020 in thick.E8 Terminals: 0.187 in wide x 0.020 in thick.E9 Terminals: 0.250 in wide x 0.032 in thick.Printed Circuit Board (PO2)These terminals interface with snap-on receptacles and other components from AMPMODU interconnection system.MICRO SWITCH™ Premium Miniature Basic SwitchesThis Honeywell datasheet supports the following MICRO SWITCH™ V7 Series Basic Switch ListingsV7-1C17D8-002 V7-1C37D855-002 V7-6C18D8-002 V7-1C27D855-002 V7-1C33D855-002 V7-1C39D8-002 V7-1C17E9-002V7-6C28E9-002V7-1B17D8-022 V7-1B19D8-022 V7-1C17D8-022 V7-3S17E9-022V7-6B19E9-022V7-1S17D8-022V7-2B17D8-022 V7-3S17D8-022V7-1B29P07-022 V7-1C18E9-022V7-3E17E9-022V7-2B27D8-022 V7-2S17D8-022V7-9W1AE9-022 V7-1Z19E9-022V7-2B17D8-048 V7-1V19E9-048V7-1C17D8-048 V7-1X2AD8-048 V7-9W1AE9-048 V7-1B17D8-048 V7-3S17D8-048V7-9W2AE9-048 V7-7B17D8-048 V7-1A17D8-048V7-2B29E9-048V7-2B19E9-048V7-6C18D8-048 V7-1B27D8-048 V71A17D8048V7-1C17D8-201 V7-7B17D8-201 V7-1C13D8-201 V7-2B17D8-201 V7-1C17E9-201V7-2S17D8-201V7-6B19E9-201V7-1S17D8-201V7-7B17D862-201 V7-1D19D8-201 V7-3A17D8-201V7-1D10E9-201V7-1V17D8-201V7-1C17D8-207V7-1B17D8-207V7-2B17D8-207V7-1C17E9-207V7-2A17D8-207V7-1V19E9-207V7-1B10E9-207V7-1A27D8-207V7-7D17D8-207V7-2S17D8-207V7-1S17D8-207V7-1C17D8-263V7-1B17D8-263V7-6C17D8-263V7-1Z10E9-263V7-1S17D8-263V7-1C27E9-263V7-1V29E9-263V7-3E19E9-263V71Z10E9-263V7-7B19D8-263V7-1S18D8-263V7-1B37D8-263V7-3A17D8-263V7-1B178-263V7-1A27D8-636V7-1C17D8V7-2B17D8V7-1V39E9V7-1Z19E9V7-1B37D8V7-2S17D8V7-1C17E9V7-1C37D8V7-1Z29E9V7-3E17D8V7-5F17D8V7-7B17D8V7-1S17D8V7-1V19E9V7-3E17E9V7-1Z20E9V7-4A17D8V7-5F27E9V7-1Y39E9V7-1V29E9V7-1D10D8V7-2B17E9V7-6C17D8V7-4S17D8V7-1Y19E9V7-1C27E9V71Z10E9V7-1B17D8V7-6B19D8V7-1C18D8V7-1A17D8V7-2B29D8V7-5D17E9V7-3A17D8V7-4S37D8V7-7B19E9V7-1Z10E9V7-2A17E9V7-5F27D8V7-3S17E9V7-1S10D8V7-1Z39E9V7-2B27E9V7-3E19E9V7-1A17P02V7-4S27D8V7-7B27D8V7-1Z13E9V7-1Z30E9V7-2A27D8V7-7A19D8V7-2B37E9V7-1C29D8V7-1C13E9V7-3A18D8V7-9W2AE9V7-4A18E9V7-9W1AE9V7-1A28D8V7-1B19E9V7-1K29E9V7-2B17-D8V7-3E10E8V7-6C37E9-036V7-1C27D94V7-1C17D8-295V7-1C29D7V7-1Z13E993V7-1V19E9-269V7-6C13D8-132V7-6B19D8-057V7-2B17D8-162V7-4A29E8-424V7-1C17D844V7-1B17D8-122V7-1C17D844-429V7-7A19D8-374V7-4A17D8-407V7-5F17D8-289V7-6C17D8-057V7-2B29D8-384V7-1X1AD8-304V7-6C17D8-162V7-1A23E9-172V7-1X2AD9C2V7-1C27E9-292V7-2S17E9-420V7-1C17D8-294V7-7B17D8-073V7-3S17D8-148V7-7C19D8-640V7-1V19E994-403V7-1A17D8-057V7-1E17D8-366V7-5F17D8-336V7-1C17E9-292V7-6A17D8-057V7-2E17E9-420V7-6C17D8-439V7-1X1AD9C1V7-7B10D8-274V7-7B19D8-426V7-3E17D8-148V7-1A28D882V7-7B29D883V7-7B17D8-481V7-2E17E9-366V7-1C29E7V7-1S19D8-369V7-7B19D8-640V7-7B17D8-140V7-1X2AE9-292V7-1Z13E987V7-1X2AD8-294V7-6B19D8-672V7-7B29E9-053V7-1V20E94V7-1B19D8-36915PA177-V715PA2609V7 SeriesADDITIONAL INFORMATIONThe following associated literature is available on the Honeywell web site at :• Product installation instructions• Product range guide• Product nomenclature tree• Product application-specific information– Application note: Electronic sensors and electromechanicalswitches in valves and flow meters– Application note: Electronic sensors and MICRO SWITCH ™switches in industrial air compressors– Application note: Sensors and switches for HVAC/Rapplications– Application note: Sensors and switches in oil rig applications– Application note: Sensors and switches in sanitary valves– Application note: Sensors and switches for valve monitors and valve indicators– Application note: Treadmill equipment– Application note: V7 available terminals– Technical bulletin: Applying precision switches– Technical bulletin: Low energy switch guideWARRANTY/REMEDYHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgement or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particu-lar purpose. In no event shall Honeywell be liable for conse-quential, special, or indirect damages.While we provide application assistance personally, through our literature and the Honeywell website, it is up to the customer to determine the suitability of the product in the application. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use.004987-2-EN IL50 GLO January 2015Copyright © 2015 Honeywell International Inc. All rights reserved.Sensing and Control Honeywell1985 Douglas Drive North Golden Valley, MN 55422 Find out moreHoneywell serves its customers through a worldwide network of sales offices, representatives and distributors. For application assistance, current specifications, pricing or name of the nearest Authorized Distributor, contact your local sales office.To learn more about Honeywell’s sensing and control products, call +1-815-235-6847 or 1-800-537-6945,visit , or e-mail inquiries to *********************V7-1B17D8-048-S V7-7D17D8-207V7-1A17D8-057V7-1A17D8-048V7-1C17D8-207V7-1C17E9V7-1C27E9V7-1S17D8 V7-2B17D8-201V7-5F17D8V7-6B19D8-057V7-1A17D8-057V7-7B19E9。

Transistors1/2Low frequency amplifierQST7!ApplicationLow frequency amplifier Driver!Features1) A collector current is large.2) V CE(sat) ≤ −370mVAt I C =− 1A / I B = −50mA!External dimensions (Units : mm)!Equivalent circuit !Absolute maximum ratings (T a=25°C)ParameterSymbol V CBO V CEO V EBO I CI CP P C Tj TstgLimits −30−30−6−1.5500150−55~+150−3∗1Unit V V V A A mW °C °C∗2∗1∗2Collector-base voltageCollector-emitter voltageEmitter-base voltageCollector currentPower dissipationJunction temperature Range of storage temperature Single pulse, P W =1msEach Terminal Mounted on a Recommended!Electrical characteristics (T a=25°C)ParameterSymbol Min.Typ.Max.Unit ConditionsV CB =−10V, I E =0A, f =1MHzf T −280−MHz V CE =−2V, I E =100mA, f =100MHz BV CBO −30−−V I C =−10µA BV CEO −30−−V I C =−1mA BV EBO −6−−V I E =−10µA I CBO −−−100nA V CB =−30V I EBO −−−100nA V EB =−6VV CE(sat)−−200−370mV I C =−1A, I B =−50mA h FE 270−680−V CE =−2V, I C =−100mA Cob −13−pF∗∗Collector-base breakdown voltage Collector-emitter breakdown voltage Emitter-base breakdown voltage Collector cutoff current Emitter cutoff currentCollector-emitter saturation voltage DC current gainTransition frequencyCollector output capacitance∗ PulsedTransistors2/2!Packaging specifications!Electrical characteristic curvesCOLLECTOR CURRENT : I C (A)10D C C U R R E N T G A I N : h F E1000100Fig.1 DC current gainvs. collector currentCOLLECTOR CURRENT : I C (A)B A S E S A T U R A T I O N V O L T A G E : V B E (s a t ) (V )C O L L E C T O R S A T U R A T I O N V O L T A G E : V C E (s at ) (V )Fig.2 Collector-emitter saturation voltagebase-emitter saturation voltage vs. collector currentCOLLECTOR CURRENT : I C (A)C O L L E C T O R S A T U R A T I O N V O L T A G E : V C E (s a t ) (V )Fig.3 Collector-emitter saturation voltagevs. collector currentBASE TO EMITTER CURRENT : V BE (V)C O L L E C TO R C U R R E N T : I C (A )Fig.4 Grounded emitter propagationcharacteristicsEMITTER CURRENT : I E (A)T R A N S I T I O N F R E Q U E N C Y : f T (M H z )Fig.5 Gain bandwidth productvs. emitter currentCOLLECTOR CURRENT : I C (A)Fig.6 Switching timeS W I T C H I N G T I M E : (n s )1101001000C O L L E C T O R O U T P U T C A P A C I T A N C E : C o b (p F )E M I T T E R I N P U T C A P A C I T A N C E : C i b (pF )Fig.7 Collector output capacitancevs. collector-base voltage Emitter input capacitance vs. emitter-base voltageEMITTER TO BASE VOLTAGE : V EB (V)COLLECTOR TO BASE VOLTAGE : V CB (V)AppendixAbout Export Control Order in JapanProducts described herein are the objects of controlled goods in Annex 1 (Item 16) of Export Trade ControlOrder in Japan.In case of export from Japan, please confirm if it applies to "objective" criteria or an "informed" (by MITI clause)on the basis of "catch all controls for Non-Proliferation of Weapons of Mass Destruction.Appendix1-Rev1.0分销商库存信息: ROHMQST7TR。