5082-A401-NF000中文资料

合集下载

5082-K401-DF000资料

14.2 mm (0.56 inch)Seven Segment Displays Technical DataFeatures• Industry Standard Size • Industry Standard Pinout 15.24 mm (0.6 in.) DIP Leads on 2.54 mm (0.1 in.) Centers • Choice of ColorsAlGaAs Red, High Efficiency Red, Yellow, Green, Orange • Excellent Appearance Evenly Lighted Segments Mitered Corners on Segments Gray Package Gives Optimum Contrast±50° Viewing Angle • Design FlexibilityCommon Anode or Common CathodeSingle and Dual Digits Right Hand Decimal Point ±1. Overflow Character• Categorized for Luminous IntensityYellow and Green Categorized for ColorUse of Like Categories Yields a Uniform Display • High Light Output • High Peak Current• Excellent for Long Digit String Multiplexing • Intensity and Color Selection OptionSee Intensity and ColorSelected Displays Data Sheet • Sunlight Viewable AlGaAsDescriptionThe 14.2 mm (0.56 inch) LED seven segment displays aredesigned for viewing distances upto 7 metres (23 feet). Thesedevices use an industry standard size package and pinout. Both the numeric and ±1 overflow devices feature a right hand decimalpoint. All devices are available as either common anode or common cathode.Orange AlGaAs Red HERYellowGreen Package HDSP-HDSP-[1]HDSP-[1]HDSP-HDSP- DescriptionDrawingH401H151550157015601Common Anode Right Hand Decimal A H403H153550357035603Common Cathode Right Hand Decimal B H157550757075607Common Anode ±1. Overflow C H158550857085608Common Cathode ±1. OverflowD K401552157215621Two Digit Common Anode Right Hand DecimalE K403552357235623Two Digit Common Cathode Right Hand DecimalFDevicesNote:1. These displays are recommended for high ambient light operation. Please refer to the HDSP-H10X/K12X AlGaAs and HDSP-555X HER data sheet for low current operation.HDSP-K40x Series HDSP-550x Series HDSP-552x Series HDSP-560x Series HDSP-562x Series HDSP-570x Series HDSP-572x Series HDSP-H15x Series HDSP-H40x SeriesThese displays are ideal for most applications. Pin for pin equivalent displays are alsoavailable in a low current design.The low current displays are idealfor portable applications. For additional information see the Low Current Seven Segment Displays data sheet.Part Numbering SystemNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest Agilent representative for details.2. Bin options refer to shippable bins for a part number. Color and Intensity Bins are typically restricted to 1bin per tube (exceptions may apply). Please refer to respective datasheet for specific bin limit information.5082 -X X X X-X X X X X HDSP-X X X X-X X X X XMechanical Options [1]00: No Mechanical Option Color Bin Options [1,2]0: No Color Bin LimitationMaximum Intensity Bin [1,2]0: No Maximum Intensity Bin Limitation Minimum Intensity Bin [1,2]0: No Minimum Intensity Bin Limitation Device Configuration/Color [1]1: Common Anode 3: Common CathodeDevice Specific Configuration [1]Refer to Respective DatasheetPackage [1]H: 14.2 mm (0.56 inch) Single Digit Seven Segment DisplayFUNCTIONPIN AB CDEF1CATHODE e ANODE e CATHODE c ANODE cE CATHODE NO. 1 E ANODE NO. 12CATHODE d ANODE d ANODE c, d CATHODE c, d D CATHODE NO. 1 D ANODE NO. 13ANODE [3]CATHODE [4]CATHODE b ANODE bC CATHODE NO. 1 C ANODE NO. 14CATHODE c ANODE c ANODE a, b, DP CATHODE a, b, DP DP CATHODE NO. 1DP ANODE NO. 15CATHODE DP ANODE DP CATHOPDE DP ANODE DE E CATHODE NO. 1 E ANODE NO. 26CATHODE b ANODE b CATHODE a ANODE aD CATHODE NO. 2 D ANODE NO. 27CATHODE a ANODE a ANODE a, b, DP CATHODE a, b, DP G CATHODE NO. 2G ANODE NO. 28ANODE [3]CATHODE [4]ANODE c, d CATHODE c, d C CATHODE NO. 2 C ANODE NO. 29CATHODE f ANODE f CATHODE d ANODE d DP CATHODE NO. 2DP ANODE NO. 210CATHODE g ANODE g NO PINNO PINB CATHODE NO. 2 B ANODE NO. 211 A CATHODE NO. 2 A ANODE NO. 212 F CATHODE NO. 2 F ANODE NO. 213DIGIT NO. 2 ANODE DIGIT NO. 2 CATHODE 14DIGIT NO. 1 ANODE DIGIT NO. 1 CATHODE 15 B CATHODE NO. 1 B ANODE NO. 116 A CATHODE NO. 1 A ANODE NO. 117G CATHODE NO. 1G ANODE NO. 118F CATHODE NO. 1 F ANODE NO. 1NOTES:1. ALL DIMENSIONS IN MILLIMETRES (INCHES).2. ALL UNTOLERANCED DIMENSIONS ARE FOR REFERENCE ONLY.3. REDUNDANT ANODES.4. REDUNDANT CATHODES.5. FOR HDSP-5600/-5700 SERIES PRODUCT ONLY.Package DimensionsInternal Circuit DiagramNotes:1. See Figure 2 to establish pulsed conditions.2. Derate above 46°C at 0.54 mA/°C.3. See Figure 7 to establish pulsed conditions.4. Derate above 53°C at 0.45 mA/°C.5. See Figure 8 to establish pulsed conditions.HER/Orange HDSP-5500AlGaAs Red HDSP-H40x Yellow Green HDSP-H150HDSP-K40x HDSP-5700HDSP-5600 Description SeriesSeriesSeriesSeriesUnits Average Power per Segment or DP 9610580105mW Peak Forward Current per 160[1]90[3]60[5]90[7]mA Segment or DPDC Forward Current per Segment or DP 40[2]30[4]20[6]3018]mA Operating Temperature Range -20 to +100[9]-40 to +100°C Storage Temperature Range -55 to +100°C Reverse Voltage per Segment or DP 3.0V Lead Solder Temperature for 3 Seconds 260°C(1.60 mm [0.063 in.] below seating plane)Absolute Maximum Ratings6. Derate above 81°C at 0.52 mA/°C.7. See Figure 9 to establish pulsed conditions.8. Derate above 39°C at 0.37 mA/°C.9. For operation below -20°C, contact your local Agilent components sales office or an authorized distributor.Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDeviceSeriesHDSP- Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2,5]I V9.116.0mcd I F = 20 mA(Digit Average)1.8I F = 20 mAForward Voltage/Segment or DP V F V2.03.0I F = 100 mAH15XPeak WavelengthλPEAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED Junction-RθJ-Pin400°C/W/to-Pin SegHigh Efficiency RedDeviceSeriesHDSP- Parameter Symbol Min.Typ.Max.Units Test Conditions9002800I F = 10 mA Luminous Intensity/Segment[1,2,6]I Vµcd(Digit Average)3700I F = 60 mA Peak:1 of 6 dfForward Voltage/Segment or DP V F 2.1 2.5V I F = 20 mA 55XXPeak WavelengthλPEAK635nmDominant Wavelength[3]λd626nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED Junction-RθJ-Pin345°C/W/to-Pin SegYellowDeviceSeriesHDSP- Parameter Symbol Min.Typ.Max.Units Test Conditions6001800I F = 10 mA Luminous Intensity/Segment[1,2]I Vµcd(Digit Average)2750I F = 60 mA Peak:1 of 6 dfForward Voltage/Segment or DP V F 2.1 2.5V I F = 20 mA 57XXPeak WavelengthλPEAK583nmDominant Wavelength[3,7]λd581.5586592.5nmReverse Voltage/Segment or DP[4]V R 3.040V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED Junction-RθJ-Pin345°C/W/to-Pin SegOrangeDeviceSeriesHDSP- Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment I V 2.37mcd I F = 10 mA(Segment Average)[1,2]Forward Voltage/Segment or DP V F 2.1 2.5V I F = 20 mAPeak WavelengthλPEAK600nm H40x Dominant Wavelength[3]λd603nm I F = 10 mA K40x Reverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µA Temperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED Junction-RθJ-Pin345°C/W/to-Pin SegDeviceSeriesHDSP-ParameterSymbol Min.Typ.Max.UnitsTest Conditions 9002500I F = 10 mALuminous Intensity/Segment [1,2]I Vµcd(Digit Average)`3100I F = 60 mA Peak:1 of 6 df Forward Voltage/Segment or DPV F 2.1 2.5V I F = 10 mA56XXPeak Wavelength λPEAK 566nm Dominant Wavelength [3,7]λd 571577nm Reverse Voltage/Segment or DP [4]V R 3.050V I R = 100 µATemperature Coefficient of ∆V F /°C -2mV/°C V F /Segment or DPThermal Resistance LED Junction-R θJ-Pin345°C/W/to-PinSegHigh Performance GreenNotes:1. Device case temperature is 25°C prior to the intensity measurement.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd , is derived from the CIE chromaticity diagram and is that single wavelength which defines the color of the device.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. For low current operation, the AlGaAs HDSP-H10X series displays are recommended. They are tested at 1 mA dc/segment and are pin for pin compatible with the HDSP-H15X series.6. For low current operation, the HER HDSP-555X series displays are recommended. They are tested at 2 mA dc/segment and are pin for pin compatible with the HDSP-550X series.7. The Yellow (HDSP-5700) and Green (HDSP-5600) displays are categorized for dominant wavelength. The category is designated by a number adjacent to the luminous intensity category letter.AlGaAs RedFigure 3. Maximum Allowable DC Current vs.Ambient Temperature.Figure 4. Forward Current vs.Forward Voltage.HER, Yellow, Green, OrangeFigure 7. Maximum Tolerable Peak Currentvs. Pulse Duration – HER, Orange.I D C M A X . – M A X I M U M D C C U R R E N T P E R S E G M E N T – m AT A – AMBIENT TEMPERATURE – °C 5030102051525354045I F – F O R W A R D C U R R E N T P E R S E G M E N T – m AV F – FORWARD VOLTAGE – VR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 20 m A)I F – FORWARD CURRENT PER SEGMENT – mA204010305152535ηP E A K – N O R M A L IZ E D R E L A T I V E E F F I C I E N C YI PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA4550110120Figure 11. Forward Current vs.Forward Voltage.Figure 9. Maximum Tolerable PeakCurrent vs. Pulse Duration – Green.Figure 10. Maximum Allowable DC Current vs.Ambient Temperature.Figure 12. Relative LuminousIntensity vs. DC Forward Current.Figure 13. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current.Electrical/OpticalFor more information onelectrical/optical characteristics,please see Application Note 1005.Contrast EnhancementFor information on contrastenhancement please see Application Note 1015.Soldering/CleaningCleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from thechlorinated hydrocarbon family(methylene chloride, trichloro–ethylene, carbon tetrachloride,etc.) are not recommended for cleaning LED parts. All of these various solvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs please refer to Application Note 1027.I F – F O R W A R D C U R R E N T P E R S E G M E N T – m AV F – FORWARD VOLTAGE – VR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 10 m A )I F – DC FORWARD CURRENT – mAηV – R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A P E R S E G ME N T )0.6I PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA902070801001.61.41.31.10.90.860504030100.71.01.21.5HDSP-H15x IV Bin Category Min.Max.K 9.2016.90L 13.8025.30M 20.7038.00N 31.1056.90O 46.6085.40Intensity Bin Limits (mcd)AlGaAs RedHDSP-550x/552x IV Bin Category Min.Max.E 0.91 1.67F 1.37 2.51G 2.05 3.76H 3.08 5.64I 4.628.64J 6.9312.70K 10.3919.04HERHDSP-570x/572xIV Bin Category Min.Max.D 0.61 1.11E 0.91 1.67F 1.37 2.51G 2.05 3.76H 3.08 5.64I 4.628.64J 6.9312.70K 10.3919.04YellowHDSP-560x/562x IV Bin Category Min.Max.E 0.91 1.67F 1.37 2.51G 2.05 3.76H 3.08 5.64I 4.618.46GreenColor CategoriesNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your Agilent representatives for further clarification/information.10HDSP-H40x/K40x IV Bin Category Min.Max.B 0.77 1.17C 0.95 1.45D 1.19 1.82E 1.49 2.27F 1.85 2.89G 2.32 3.54H 2.904.43Orange元器件交易网元器件交易网/semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(408) 654-8675Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 271 2451India, Australia, New Zealand: (+65) 271 2394Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only)Korea: (+65) 271 2194Malaysia, Singapore: (+65) 271 2054Taiwan: (+65) 271 2654Data subject to change.Copyright © 2002 Agilent Technologies, Inc.Obsoletes 5988-0383ENJanuary 17, 20025988-4273EN。

FT2000A中文资料

PreliminaryVorläufig1)Valid, if leads are kept at ambient temperature at a distance of 10 mm from caseGültig, wenn die Anschlußdrähte in 10 mm Abstand von Gehäuse auf Umgebungstemperatur gehalten werden1Fast Silicon Rectifiers Schnelle Silizium GleichrichterVersion 2004-06-24Nominal current – Nennstrom 20 A Repetitive peak reverse voltage 50…400 V Periodische Spitzensperrspannung Plastic caseTO-220ACKunststoffgehäuseWeight approx. – Gewicht ca.2.2 gPlastic material has UL classification 94V-0Gehäusematerial UL94V-0 klassifiziert1/Tab = Cathode 2 = AnodeStandard packaging in tubes Standard Lieferform in StangenMaximum ratings GrenzwerteType Typ Repetitive peak reverse voltage Periodische SpitzensperrspannungV RRM [V]Surge peak reverse voltage StoßspitzensperrspannungV RSM [V]FT 2000 A 5050FT 2000 B 100100FT 2000 D 200200FT 2000 G400400Max. average forward rectified current, R-load T C = 100°C I FAV 20 A Dauergrenzstrom in Einwegschaltung mit R-LastRepetitive peak forward current f > 15 Hz I FRM 80 A 1)Periodischer SpitzenstromPeak forward surge current, 50 Hz half sine-wave T A = 25°CI FSM 375 A Stoßstrom für eine 50 Hz Sinus-Halbwelle Peak forward surge current, 60 Hz half sine-wave T A = 25°C I FSM 390 A Stoßstrom für eine 60 Hz Sinus-Halbwelle Rating for fusing, t < 10 ms T A = 25°Ci 2t 680 A 2s Grenzlastintegral, t < 10 msOperating junction temperature – Sperrschichttemperatur T j – 50…+150°C Storage temperature – LagerungstemperaturT S– 50…+175°CPreliminaryVorläufig2CharacteristicsKennwerte Forward voltage – Durchlaßspannung T j = 25°C I F = 20 A V F < 0.94 V Leakage current – Sperrstrom T j = 25°CV R = V RRMI R < 25 µA Reverse recovery time I F = 0.5 A through/über t rr < 200 ns SperrverzugszeitI R = 1 A to/auf I R = 0.25 AThermal resistance junction to caseR thC< 2.0 K/WWärmewiderstand Sperrschicht – GehäuseT C[°C]Rated forward current versus case temperatureZul. Richtstrom in Abh. von der Gehäusetemp.12010080604020[%]I FAV。

MFR5中文资料

E24, E96 preferred °C/watt °C 150 commercial 140 -55 to 155 commercial, professional 112
Physical Data
Dimensions (mm) & Weight (g) Type MFR3 MFR4 MFR5 Professional Commercial Professional Commercial Professional Commercial L max 3.5 3.7 6.2 6.8 9.0 10.0 D max 1.8 2.0 2.5 3.0 3.6 3.7 F min 22.4 22.4 21.0 21.0 19.6 19.6 d nom 0.5 0.45 0.6 0.55 0.8 0.6
PCB mount centres Min bend radius Wt. nom
7.6 7.6 10.2 10.2 12.7 12.7
0.5 0.5 0.6 0.6 1.2 0.6
0.1 0.1 0.3 0.3 0.5 0.5 d D
L
f
General Note
Welwyn Components reserves the right to make changes in product specification without notice or liability. All information is subject to Welwyn’s own data and is considered accurate at time of going to print. A subsidiary of TT electronics plc Issue D · 05.07

5082-2800中文资料

Schottky Barrier Diodes for General Purpose ApplicationsTechnical DataFeatures• Low Turn-On VoltageAs Low as 0.34 V at 1 mA• Pico Second Switching Speed • High Breakdown VoltageUp to 70 V• Matched Characteristics AvailableDescription/Applications The 1N5711, 1N5712, 5082-2800/ 10/11 are passivated Schottky barrier diodes which use a patented “guard ring” design to achieve a high breakdown voltage. Packaged in a low cost glass package, they are well suited for high level detecting, mixing, switching, gating, log or A-D converting, video detecting, frequency discriminating, sampling, and wave shaping.The 5082-2835 is a passivatedSchottky diode in a low cost glasspackage. It is optimized for lowturn-on voltage. The 5082-2835 isparticularly well suited for theUHF mixing needs of the CATVmarketplace.The 5082-2300 Series and5082-2900 devices are unpas-sivated Schottky diodes in a glasspackage. These diodes haveextremely low 1/f noise and areideal for low noise mixing, andhigh sensitivity detecting. Theyare particularly well suited for usein Doppler or narrow band videoreceivers.1N57111N57125082-2300 Series5082-2800 Series5082-2900DIMENSIONS IN MILLIMETERS AND (INCHES).Outline 15Maximum RatingsJunction Operating and Storage Temperature Range5082-2303, -2900.................................................................-60°C to +100°C 1N5711, 1N5712, 5082-2800/10/11....................................-65°C to +200°C 5082-2835............................................................................-60°C to +150°C DC Power Dissipation(Measured in an infinite heat sink at T CASE = 25°C)Derate linearly to zero at maximum rated temperature5082-2303, -2900..............................................................................100 mW 1N5711, 1N5712, 5082-2800/10/11.................................................250 mW 5082-2835.........................................................................................150 mW Peak Inverse Voltage.................................................................................V BRPackage CharacteristicsOutline 15Lead Material........................................................................................DumetLead Finish..............................................................................95-5% Tin-LeadMax. Soldering Temperature................................................260°C for 5 secMin. Lead Strength....................................................................4 pounds pullTypical Package Inductance1N5711, 1N5712:................................................................................2.0 nH2800 Series:........................................................................................2.0 nH2300 Series, 2900:..............................................................................3.0 nHTypical Package Capacitance1N5711, 1N5712:................................................................................0.2 pF2800 Series:........................................................................................0.2 pF2300 Series, 2900:............................................................................0.07 pFThe leads on the Outline 15 package should be restricted so that thebend starts at least 1/16 inch from the glass body.Outline 15 diodes are available on tape and reel. The tape and reelspecification is patterned after RS-296-D.Electrical Specifications at T= 25°CAGeneral Purpose DiodesMin.Max.V F = 1 V Max.Max.Max.Breakdown Forward at Forward Reverse Leakage Capaci-Part Package Voltage Voltage Current Current tance Number Outline V BR (V)V F (mV)I F (mA)I R (nA) at V R (V)C T (pF) 5082-280015704101520050 2.0 1N571115704101520050 2.0 5082-281015204103510015 1.2 1N571215205503515016 1.2 5082-28111515410201008 1.2 5082-2835158*34010*1001 1.0 Test I R = 10 µA I F = 1 mA*V F = 0.45 V V R = 0 V Conditions*I R = 100 µA f =1.0 MHz Note: Effective Carrier Lifetime (τ) for all these diodes is 100 ps maximum measured with Krakauer method at 5 mA except for 5082-2835 which is measured at 20 mA.Low 1/f (Flicker) Noise DiodesMin.Max.V F = 1 V Max.Max.Max.Part Breakdown Forward at Forward Reverse Leakage Capaci-Number Package Voltage Voltage Current Current tance 5082-Outline V BR (V)V F (mV)I F (mA)I R (nA) at V R (V)C T (pF) 230315204003550015 1.0 29001510400201005 1.2 Test I R = 10 µA I F = 1 mA V R = 0 V Conditions f =1.0 MHzNote: Effective Carrier Lifetime (τ) for all these diodes is 100 ps maximum measured with Krakauer method at 20 mA.Matched Pairs and QuadsBasic Matched MatchedPart Number Pair Quad Batch5082-Unconnected Unconnected Matched[1]Test Conditions2900∆VF at IF= 1.0, 10 mA28005082-28045082-2805∆V F at I F = 0.5, 5 mA ∆V F = 20 mV∆V F = 20 mV*I F = 10 mA∆C O at f = 1.0 MHz28115082-2826∆VF at IF= 10 mA∆V F = 10 mV∆C O at f = 1.0 MHz ∆C O = 0.1 pF28355082-2080∆VF at IF=10 mA∆V F = 10 mV∆C O at f = 1.0 MHz∆C O = 0.1 pFNote:1. Batch matched devices have a minimum batch size of 50 devices.SPICE ParametersParameter Units5082-28005082-28105082-28115082-28355082-23035082-2900B V V75251892510C J0pF 1.60.8 1.00.70.7 1.1E G eV0.690.690.690.690.690.69I BV A10E-510E-510E-510E-510E-510E-5I S A 2.2 x 10E-9 1.1 x 10E-90.3 x 10E-8 2.2 x 10E-87 x 1.0E-910E-8N 1.08 1.08 1.08 1.08 1.08 1.08 R SΩ25101051015 P B V0.60.60.60.560.640.64 PT222222 M0.50.50.50.50.50.5Typical ParametersV F – FORWARD VOLTAGE (V)Figure 1. I-V Curve Showing Typical Temperature Variation for 5082-2300 Series and 5082-2900 Schottky Diodes.1001010.10.01I F - F O R W A R D C U R R E N T (m A )V BR (V)Figure 2. 5082-2300 Series Typical Reverse Current vs. Reverse Voltage at Various Temperatures.10.0001,000100101I R (n A )051015100755025T A = 25°CI F - FORWARD CURRENT (mA)Figure 3. 5082-2300 Series and 5082-2900 Typical Dynamic Resistance (R D ) vs. Forward Current (I F ).100010010R D - D Y N A M I C R E S I S T AN C E (Ω)0.01010100V R - REVERSE VOLTAGE (V)Figure 4. 5082-2300 and 5082-2900 Typical Capacitance vs. Reverse Voltage.1.21.00.80.60.40.20C T - C A P A C I T A N C E (p F )048121620V F - FORWARD VOLTAGE (V)Figure 5. I-V Curve Showing Typical Temperature Variation for 5082-2800 or 1N5711 Schottky Diodes.5010510.50.10.050.01I F - F O R W A R D C U R R E N T (m A )00.20.40.60.8 1.0 1.2V R - REVERSE VOLTAGE (V)Figure 6. (5082-2800 OR 1N5711) Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.100,00010,0001000100101I R - R E V E R S E C U R R E N T (n A )0.20.40.60.81.01.2V R - REVERSE VOLTAGE (V)Figure 7. (5082-2800 or 1N5711)Typical Capacitance (C T ) vs. Reverse Voltage (V R ).12.01.51.00.50C T - C A P A C I T A N C E (p F )010********V F - FORWARD VOLTAGE (V)Figure 8. I-V Curve Showing Typical Temperature Variation for the 5082-2810 or 1N5712 Schottky Diode.100101.00.10.01I F - F O R W A R D C U R R E N T (m A )V R - REVERSE VOLTAGE (V)Figure 9. (5082-2810 or IN5712)Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.10,0001000100101.0I R - R E V E R S E C U R R E N T (n A )Typical Parameters, continuedV F - FORWARD VOLTAGE (V)Figure 10. I-V Curve Showing Typical Temperature Variation for the 5082-2811 Schottky Diode.100101.00.10.01I F - F O R W A R D C U R R E N T (m A )0.40.20.60.81.01.2V R - REVERSE VOLTAGE (V)Figure 11. (5082-2811) Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.100,00010,0001000100101I R - R E V E R S E C U R R E N T (n A )0510********V F - FORWARD VOLTAGE (V)Figure 12. I-V Curve Showing Typical Temperature Variations for 5082-2835 Schottky Diode.100101.00.10.01I F - F O R W A R D C U R R E N T (m A )00.20.40.60.8 1.0 1.2V R - REVERSE VOLTAGE (V)Figure 13. (5082-2835) Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.100,00010,0001000100101I R - R E V E R S E C U R R E N T (n A )0123456V R - REVERSE VOLTAGE (V)Figure 14. Typical Capacitance (C T ) vs. Reverse Voltage (V R ).C T - C A P A C I T A N C E (p F )0246810I F - FORWARD CURRENT (mA)Figure 15. Typical Dynamic Resistance (R D ) vs. Forward Current (I F ).1000100101R D - D Y N A M I C R E S I S T A N C E (Ω)Diode Package Marking1N5xxx5082-xxxxwould be marked:1Nx xxxxx xxYWW YWWwhere xxxx are the last four digits of the 1Nxxxx or the 5082-xxxx partnumber. Y is the last digit of the calendar year. WW is the work week ofmanufacture.Examples of diodes manufactured during workweek45 of 1999:1N57125082-3080would be marked:1N53071280945945Data subject to change.Copyright © 1999 Agilent TechnologiesObsoletes 5968-4304E5968-7181E (11/99)。

1N5802-1中文资料

Figure 7.
JANC (E-version) die dimensions.
MSC1344.PDF 02-23-99
元器件交易网
7516 Central Industrial Drive Riviera Beach, Florida 33404 PHONE: (561) 842-0305 FAX: (561) 845-7813
1N5802 1N5804 1N5806
JANHCE and JANKCE JANHCF and JANKCF
VBR
60V 110V 160V 60V 110V 160V
IO Tj = 75° C
2.5A 2.5A 2.5A 2.5A 2.5A 2.5A
A
ELECTRICAL CHARACTERISTICS: CHARACTERISTICS:
CHARACTERISTIC
Reverse Current Rated VR, TC = 25° C Reverse Current Rated VR, TC = 100° C Forward Voltage Drop IF = 1A, TC = 25° C Junction Capacitance @ VR = 10V
TA = + 100° C TA = + 100° C TA = - 65° C TA = - 65° C 1N5802 1N5804 1N5806 50 100 150
50 0.800 1.075
µA
10 11 12
VFM3 VFM4 V(BR)2
V V V V V
13 14 15 16 17 18 trr CJ VFRM tfr SUBGROUP 4 IF = IR = 0.5 A IRM(REC) = 0.05 A VR = 10 V, tr = 8 nS tp ≥ 20 nS f = 1 Mhz IFM = 250 mA tr 8 nS VFR = 1.1 x VF IFM = 250 mA(pk) dl/dt = 65 A\us (min) 25 25 2.2 15 nS pF V nS Vsig = 50 mV (P-P) (MAX)

RQA0008NXAQS中文资料

RQA0008NXAQSSilicon N-Channel MOS FETREJ03G1569-0100Rev.1.00Jul 04, 2007Features• High Output Power, High Gain, High EfficiencyPout = +36 dBm, Linear Gain = 18 dB, PAE = 65% (f = 520 MHz)• Compact package capable of surface mountingOutline*UPAK is a trademark of Renesas Technology Corp.Absolute Maximum Ratings(Ta = 25°C)UnitRatingsItem SymbolDrain to source voltage V DSS 16 V Gate to source voltage V GSS ±5 V Drain current I D 2.4 A Channel dissipation Pch note 10 W Channel temperature Tch 150 °CStorage temperature Tstg –55 to +150 °CNote: Value at Tc = 25°CThis device is sensitive to electro static discharge. An adequate careful handling procedure is requested.Electrical Characteristics(Ta = 25°C)Item Symbol Min. Typ Max. Unit Test ConditionsZero gate voltage drain current I DSS — — 10 µA V DS = 16 V, V GS = 0 Gate to source leak current I GSS — — ±2 µA V GS = ±5 V, V DS = 0 Gate to source cutoff voltage V GS(off) 0.15 0.4 0.8 V V DS = 6 V, I D = 1 mA Forward Transfer Admittance |yfs| — 2.4 — S V DS = 6 V, I D = 1.2 A Input capacitance Ciss — 44 — pF V GS = 5 V, V DS = 0, f = 1 MHz Output capacitance Coss — 25 — pF V DS = 6 V, V GS = 0, f = 1 MHz Reverse transfer capacitance Crss — 6.0 — pF V DG = 6 V, V GS = 0, f = 1 MHz — 36 — dBm Output Power Pout — 3.98 — WPower Added Efficiency PAE — 65 — % V DS = 6 V, I DQ = 400 mAf = 520 MHz, Pin = +20 dBmMain CharacteristicsEvaluation Circuit (f = 520 MHz)S Parameter(V DS = 6 V, I DQ = 400 mA, Zo = 50 Ω)S11 S21 S12 S22(deg.) MAG ANG(deg.)(deg.)MAG ANGf(MHz) MAG ANG(deg.) MAG ANG100 0.883 -170.0 8.48 84.9 0.021 -3.0 0.867 -175.4 150 0.904 -175.7 5.46 80.1 0.021 -5.3 0.879 -177.3 200 0.902 -178.2 4.13 72.6 0.021 -12.0 0.872 -178.5 250 0.900 179.6 3.30 67.1 0.021 -16.5 0.872 -179.7 300 0.898 177.8 2.75 61.6 0.021 -19.8 0.873 179.5 350 0.898 176.2 2.34 56.2 0.020 -24.2 0.873 178.8 400 0.897 174.8 2.04 50.9 0.020 -27.7 0.874 178.4 450 0.898 173.4 1.80 45.7 0.020 -31.3 0.873 177.8 500 0.899 172.3 1.61 40.7 0.020 -34.4 0.873 177.4 550 0.900 171.2 1.46 35.5 0.019 -38.2 0.875 176.8 600 0.900 170.1 1.33 30.5 0.019 -41.5 0.876 176.5 650 0.899 169.0 1.22 25.5 0.019 -45.0 0.876 176.0 700 0.899 167.9 1.13 20.5 0.019 -47.8 0.878 175.6 750 0.899 166.9 1.04 15.6 0.018 -51.2 0.878 175.2 800 0.898 165.8 0.97 10.6 0.018 -54.8 0.880 174.9 850 0.899 164.7 0.91 5.7 0.018 -57.4 0.878 174.4 900 0.901 163.7 0.85 0.9 0.018 -60.9 0.880 173.9 950 0.903 162.7 0.80 -3.9 0.017 -63.5 0.882 173.5 1000 0.903 161.8 0.75 -8.7 0.017 -66.5 0.883 173.1 1050 0.903 160.8 0.71 -13.4 0.017 -69.3 0.884 172.6 1100 0.905 159.8 0.68 -18.1 0.016 -71.9 0.883 172.1 1150 0.906 158.8 0.64 -22.8 0.016 -74.8 0.886 171.6 1200 0.907 157.8 0.61 -27.3 0.016 -76.8 0.888 171.2 1250 0.909 156.8 0.58 -32.0 0.015 -79.6 0.891 170.8 1300 0.911 155.8 0.55 -36.6 0.015 -81.9 0.893 170.4 1350 0.912 154.9 0.52 -41.2 0.015 -84.1 0.896 170.0 1400 0.912 154.0 0.50 -45.8 0.015 -86.2 0.897 169.5 1450 0.912 153.1 0.48 -50.3 0.014 -88.6 0.898 169.1 1500 0.913 152.1 0.46 -54.8 0.014 -90.2 0.900 168.7 1550 0.914 151.2 0.44 -59.2 0.014 -92.6 0.900 168.4 1600 0.915 150.3 0.42 -63.8 0.014 -94.1 0.902 167.8 1650 0.916 149.4 0.40 -68.3 0.013 -95.9 0.903 167.4 1700 0.915 148.5 0.39 -72.6 0.013 -97.6 0.904 167.0 1750 0.914 147.6 0.38 -76.9 0.013 -99.0 0.904 166.4 1800 0.913 146.7 0.36 -81.1 0.013 -100.8 0.906 165.8 1850 0.915 145.7 0.35 -85.3 0.013 -102.2 0.909 165.5 1900 0.920 144.5 0.34 -89.5 0.013 -103.9 0.909 165.0 1950 0.923 143.3 0.33 -93.6 0.013 -105.8 0.910 164.5 2000 0.925 142.3 0.31 -97.9 0.013 -107.2 0.911 163.9 2050 0.926 141.4 0.30 -102.1 0.013 -108.7 0.913 163.5 2100 0.928 140.5 0.29 -106.3 0.013 -109.9 0.914 163.0 2150 0.929 139.6 0.28 -110.6 0.013 -112.2 0.916 162.4 2200 0.930 138.7 0.27 -114.7 0.013 -112.8 0.917 161.8 2250 0.932 137.8 0.27 -118.9 0.013 -114.9 0.921 161.5 2300 0.931 137.1 0.26 -123.0 0.013 -116.5 0.921 161.0 2350 0.930 136.3 0.25 -127.1 0.013 -118.5 0.921 160.5 2400 0.926 135.5 0.24 -131.2 0.013 -120.2 0.924 159.9 2450 0.922 134.4 0.24 -135.4 0.014 -121.9 0.923 159.5 2500 0.920 133.3 0.23 -139.5 0.014 -123.7 0.921 159.0Package DimensionsOrdering InformationPart Name Quantity Shipping Containerφ178 mm reel, 12 mm emboss tapingRQA0008NXTL-E 1000pcs.Note: For some grades, production may be terminated. Please contact the Renesas sales office to check the state of production before ordering the product.Refer to "/en/network " for the latest and detailed information.Renesas Technology America, Inc.450 Holger Way, San Jose, CA 95134-1368, U.S.A Tel: <1> (408) 382-7500, Fax: <1> (408) 382-7501Renesas Technology Europe LimitedDukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K.Tel: <44> (1628) 585-100, Fax: <44> (1628) 585-900Renesas Technology (Shanghai) Co., Ltd.Unit 204, 205, AZIACenter, No.1233 Lujiazui Ring Rd, Pudong District, Shanghai, China 200120Tel: <86> (21) 5877-1818, Fax: <86> (21) 6887-7898Renesas Technology Hong Kong Ltd.7th Floor, North Tower, World Finance Centre, Harbour City, 1 Canton Road, Tsimshatsui, Kowloon, Hong Kong Tel: <852> 2265-6688, Fax: <852> 2730-6071Renesas Technology Taiwan Co., Ltd.10th Floor, No.99, Fushing North Road, Taipei, Taiwan Tel: <886> (2) 2715-2888, Fax: <886> (2) 2713-2999Renesas Technology Singapore Pte. Ltd.1 Harbour Front Avenue, #06-10, Keppel Bay Tower, Singapore 098632 Tel: <65> 6213-0200, Fax: <65> 6278-8001Renesas Technology Korea Co., Ltd.Kukje Center Bldg. 18th Fl., 191, 2-ka, Hangang-ro, Yongsan-ku, Seoul 140-702, Korea Tel: <82> (2) 796-3115, Fax: <82> (2) 796-2145Renesas Technology Malaysia Sdn. BhdUnit 906, Block B, Menara Amcorp, Amcorp Trade Centre, No.18, Jalan Persiaran Barat, 46050 Petaling Jaya, Selangor Darul Ehsan, Malaysia Tel: <603> 7955-9390, Fax: <603> 7955-9510RENESAS SALES OFFICES。

TC4422_中文数据手册

2006 Microchip Technology Inc.
1.0 电气特性
绝对最大值 †
供电电压............................................................... +20V 输入电压 ...........................(VDD + 0.3V) 至 (GND - 5V) 输入电流（VIN > VDD）...................................... 50 mA 封装功耗（TA ≤ 70°C）
80 ns 图 4-1
3
mA VIN = 3V
0.2
VIN = 0V
18
V
温度特性
电气规范：除非另外说明，否则所有参数均为 4.5V ≤ VDD ≤ 18V 条件下的值。
参数
符号最小值典型值最大值单位
条件
温度范围规定温度范围（商业级）规定温度范围（扩展级）规定温度范围（汽车级）最高结温储存温度范围封装热阻热阻， 5 引脚 TO-220 热阻， 8 引脚 6x5 DFN
2006 Microchip Technology Inc.
DS21420D_CN 第 3 页
TC4421/TC4422
直流特性（在整个工作温度范围内）
电气规范：除非另外说明，否则温度超出正常工作范围，且 4.5V ≤ VDD ≤ 18V。
参数
符号
最小值典型值最大值单位
条件
输入
逻辑 “1”，高输入电压逻辑 “0”，低输入电压输入电流输出
VIH
2.4
—
VIL
—

NF-2000

-------------------------------------
-------------------------------------
-------------------------------------
-------------------------------------
---------- □x ------------------- □x ------------------- □x ------------------- □x ----------
11
拉伸强度值 Su
---------- □x ---------- □x ---------- □x ---------- □x
---------- □x ---------- □x ---------- □x ---------- □x
----------------- □x ----------------- □x 各种 ----------------- □x 类型 ----------------- □x 表 U 各种级别
----------------------------------- □x ------------------- □x ------------------- ----------
---------- □x ------------------- □x ------------------- □x ------------------- □x ----------
NF-2220 淬火和回火材料试件和试样的制备规程
NF-2221 通用要求淬火和回火材料的冲击试样制备规程与产品型式有关。除按本节下列所述各款外，试件
和试样的切取部位应符合材料技术规格书的要求。所提到的尺寸均表示名义值。

XM5082 规格书

The XM5082 is available in an adjustable output voltage version. The adjustable version has wide output range from 0.6V to VIN. The XM5082 series products are available in a low profile (1mm) tiny
125 -55 to 150
UNIT V V V °C °C °C
XySemi Inc
-2-

Rev0.4
XM5082
____________________________________________________________________________________________________________________________
XM5082
________________________________________________________________________________________________________________________
1.2A Synchronous Step-Down DC/DC Converter
Line and Load Transient Response
有 • Operating Temperature: -40oC to +85°C 技 • Available in tiny SOT23-5 Package 科 Applications 子• Mobile Phone/Smartphone 电• DVB
Switch Output. Connect this pin to the inductor.

UF802-G中文资料

'
+5
+7C
#-, ./.0#
./1
4+75E 4+CE
!"

+#

%
&

+5 5+55
(+( 5+7
!" ,
$+
#
SENSITRON SEMICONDUCTOR
TECHNICAL DATA
DISCLAIMER: 1- The information given herein, including the specifications and dimensions, is subject to change without prior notice to improve product characteristics. Before ordering, purchasers are advised to contact the Sensitron Semiconductor sales department for the latest version of the datasheet(s). 2- In cases where extremely high reliability is required (such as use in nuclear power control, aerospace and aviation, traffic equipment, medical equipment, and safety equipment), safety should be ensured by using semiconductor devices that feature assured safety or by means of users’ fail-safe precautions or other arrangement. 3- In no event shall Sensitron Semiconductor be liable for any damages that may result from an accident or any other cause during operation of the user’s units according to the datasheet(s). Sensitron Semiconductor assumes no responsibility for any intellectual property claims or any other problems that may result from applications of information, products or circuits described in the datasheets. 4- In no event shall Sensitron Semiconductor be liable for any failure in a semiconductor device or any secondary damage resulting from use at a value exceeding the absolute maximum rating. 5- No license is granted by the datasheet(s) under any patents or other rights of any third party or Sensitron Semiconductor. 6- The datasheet(s) may not be reproduced or duplicated, in any form, in whole or part, without the expressed written permission of Sensitron Semiconductor. 7- The products (technologies) described in the datasheet(s) are not to be provided to any party whose purpose in their application will hinder maintenance of international peace and safety nor are they to be applied to that purpose by their direct purchasers or any third party. When exporting these products (technologies), the necessary procedures are to be taken in accordance with related laws and regulations.

SMF05C.TCT中文资料

SMF05C.TCT中文资料TVS Diode ArrayFor ESD and Latch-Up Protection__ION __SDescriptionThe SMF series TVS arrays are designed to protect sen-sitive electronics from damage or latch-up due to ESDand other voltage-induced transient events. They aredesigned for use in applications where board space is ata premium. Each device will protect up to five lines. Theyare unidirectional devices and may be used on lines wherethe signal polarities are above ground.TVS diodes are solid-state devices designed specificallyfor transient suppression. They feature large cross-sec-tional area junctions for conducting high transient cur-rents. They offer desirable characteristics for board levelprotection including fast response time, low operatingand clamping voltage, and no device degradation.The SMF series devices may be used to meet the immu-nity requirements of IEC __-4-2, level 4. The smallSC70 package makes them ideal for use in portable elec-tronics such as cell phones, PDA’s, notebook comput-ers, and digital cameras.SMF05CESD protection for data lines toIEC __-4-2 (ESD) ±15kV (air), ±8kV (contact)IEC __-4-4 (EFT) 40A (5/50ns)Small package for use in portable electronicsProtects five I/O linesWorking voltage: 5VLow leakage currentLow operating and clamping voltagesSolid-state silicon-avalanche technologyEIAJ SC70-6L packageMolding compound flammability rating: UL 94V-0Marking : Marking CodePackaging : Tape and Reel per EIA 481Cellular Handsets and AccessoriesCordless PhonesPersonal Digital Assistants (PDA’s)Notebooks and HandheldsPortable InstrumentationDigital CamerasPeripheralsMP3 PlayersCircuit DiagramSchematic PIN ConfigurationRevision 08/04/041SMF05C__ION __SAbsolute Maximum RatingRatingPeakPulsePower(tp=8/20s)PeakPulseCurrent(tp=8/20s)ESDperIE C__-4-2(Air)ESDperIEC__-4-2(Contact)LeadSolderingTemperatureOperatingTemperatureSto rageTemperatureSymbolPpk__GValue__年260(10seconds)-55to+125-55to+150UnitsWattsAkVoCCCooElectrical CharacteristicsSMF05CParameterReverseStand-OffVoltageReverseBreakdownVoltageReverseLeakageCurrentCla mpingVoltageClampingVoltageJunctionCapacitanceSymbol__jIt=1mAVRWM=5V,T=25°CIPP=5A,tp=8/20sIPP=8A,tp=8/20sVR =0V,f=1MHz659.812.5130ConditionsMinimumTypicalMaximum5UnitsVVAVVpF2022年Semtech Corp.2SMF05CPower Derating Curve__-__% of Rated Poweror IPP__-__年__ION __STypical CharacteristicsNon-Repetitive Peak Pulse Power vs. Pulse Time10Peak Pulse Power - Ppk (kW)0.10.010.1110Pulse Duration - tp (s)100100000255075100o__Ambient Temperature - TA (C) Pulse Waveform__-__80Percentof IPP__-__302022年001015Time (s)202530Clamping Voltage vs. Peak Pulse Current 98ClampingVoltage - VC (V)__-__0246810Peak Pulse Current - IPP (A) Capacitance vs. Reverse Voltage__Capacitance - Cj (pF)__-__020ESD Clamping Characteristics(8kV Contact Discharge per IEC __-4-2)00123456Reverse Voltage - VR (V)2022年Semtech Corp.3SMF05CSMF05C Circuit Diagram13456__ION __SApplications InformationDevice Connection for Protection of Five Data LinesThe SMF05C is designed to protect up to five unidirec-tional data lines. The device is connected as follows:1.Unidirectionalprotection of five I/O lines isachieved by connecting pins 1, 3, 4, 5 and 6 to thedata lines. Pin 2 is connected to ground. Theground connection should be made directly to theground plane for best results. The path length iskept as short as possible to reduce the effects ofparasitic inductance in the board traces.Circuit Board Layout Recommendations for Suppres-sion of ESD.Good circuit board layout is critical for the suppressionof ESD induced transients. The following guidelines arerecommended: zPlace the SMF05C near the input terminals orconnectors to restrict transient coupling.zMinimize the path length between the SMF05C andthe protected line.zMinimize all conductive loops including power andground loops.zThe ESD transient return path to ground should bekept as short as possible.zNever run critical signals near board edges.zUse ground planes whenever possible.Matte Tin Lead FinishMatte tin has become the industry standard lead-freereplacement for SnPb lead finishes. A matte tin finishiscomposed of 100% tin solder with large grains.Since the solder volume on the leads is small com-pared to the solder paste volume that is placed on theland pattern of the PCB, the reflow profile will bedetermined by the requirements of the solder paste.Therefore, these devices are compatible with bothlead-free and SnPb assembly techniques. In addition,unlike other lead-free compositions, matte tin does nothave any added alloys that can cause degradation ofthe solder joint.Protection of Five Unidirectional Lines2022年Semtech Corp.4SMF05C__ION __STypical Applications2022年Semtech Corp.5SMF05C__ION __SOutline Drawing - SC70 6L2022年Semtech Corp.6SMF05C__ION __SMarking CodesPartNumberSMF05CMarkingCode5CNote:(1) Pin 1 Identified with a dotOrdering InformationPartNumberSMF05C.__C.TCTLeadFinishSnPbMatteSnQtyperReel3,0003,000ReelSize7Inch7InchContact InformationSemtech CorporationProtection Products Division200 Flynn Road, Camarillo, CA __Phone: (805)498-2111 FAX (805)498-3804。

睿英电气RM系列数字式电动机综合保护装置

RM030
RM050
RM100
RM150
RM200
型号
工作电压频率三相
功率因数保护
谐波测量保护
温度测量保护
功率保护
欠/过电流保护
保护功能
缺相保护不平衡保护
逆相保护
堵转保护
短路保护
接地保护
失速保护
通讯MODBUS 4～20mA输出
产品概述，功能与特点·······················································································2 型号选择················································································································3 安装尺寸················································································································5 接线端子，指示灯说明·······················································································6 接线图····················································································································6 技术指标················································································································7

5082-0012资料

DescriptionThis PIN diode chip is silicon dioxide or nitride passi-vated. The 5082-0012 has a planar construction. The fabrication processes are optimized for long term reliability and tightly controlled for uniformity in electrical performance.OutlineMaximum RatingsJunction Operating and StorageTemperature Range .............................-65°C to +150°C Soldering Temperature ..........+425°C for 1 min. max.5082-0012PIN Diode Chip for Hybrid MIC Switches/AttenuatorsData SheetFeatures•Low Series Resistance: 1.0Ω TypicalApplicationsThis general purpose PIN diode is intended for low power switching applications such as duplexers,antenna switching matrices, digital phase shifters, time multiplex filters, TR switches, pulse and amplitude modulators, limiters, leveling circuits, and attenuators.Electrical Specifications at T A = 25°CTypical ParametersNearest Typical Chip Equivalent Minimum Maximum Typical Reverse Part Packaged Breakdown Junction Series Typical Recovery Number Part No.VoltageCapacitance Resistance Lifetime Time 5082-5082-V BR (V)C j (pF)R S (Ω)τ (ns)t rr (ns)001230011500.12 1.0400100 Test V R = V BR V R = 50 V I F = 100 mA I F = 50 mA I F = 20 mA ConditionsMeasure f = 1 MHzf = 100 MHzI R = 250 mAV R = 10 V I R ≤ 10 mA90% RecoveryDimensions in millimeters (1/1000 inch)Assembly and Handling Procedures forPIN Chips1. StorageDevices should be stored in a dry nitrogen purged dessicator or equivalent.2. CleaningIf required, surface contamination may be removed with electronic grade solvents. Typical solvents, such as freon (T.F. or T.M.C.), acetone, deionized water, and methanol, or their locally approved equivalents, can be used singularly or in combinations. Typical cleaning times per solvent are one to three minutes. DI water and methanol should be used (in that order) in the final cleans. Final drying can be accomplished by placing the cleaned dice on clean filter paper and drying with an infrared lamp for 5-10 minutes. Acids such as hydrofluoric (HF), nitric (HN O3) and hydrochloric (HCl) should not be used.The effects of cleaning methods/solutions should be verified on small samples prior to submitting the entire lot.Following cleaning, dice should be either used in assembly (typically within a few hours) or stored in clean containers in a reducing atmosphere or a vacu-um chamber.3. Die Attacha. EutecticAuSn preform with stage temperature of 310°C for one minute max. AuGe preform with stage temperature of 390°C for one minute max.b. EpoxyFor epoxy die-attach, conductive silver-filled or gold-filled epoxies are recommended. This method can be used for all Avago PIN chips.4. Wire BondingEither ultrasonic or thermocompression bonding tech-niques can be employed. Suggested wire is pure gold, 0.7 to 1.5 mil diameter.For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Pte. in the United States and other countries.Data subject to change. Copyright © 2006 Avago Technologies Pte. All rights reserved. Obsoletes 5965-8880E5989-4778EN February 23, 2006。

ELC-TC04ANNN热敏电阻传感器模块说明书

5011633103-TE032007-05-08 ELC-TC04ANNNThermocouple Sensors ModuleInstruction SheetWARNING•This Instruction Sheet only provides descriptions for electrical specifications, general specifications, installation & wiring, troubleshooting and peripherals. For more information about the optional peripherals, please see ELC Application Manual.•This is an OPEN TYPE Controller. The ELC should be kept in an enclosure away from airborne dust, humidity, electric shock risk and vibration. Also, it is equipped with protective methods such as some special tools or keys to open the enclosure, so as to avoid the hazard to users and the damage to the ELC. Do NOT touch terminals when power on.•Never connect the AC main circuit power supply to any of the input/output terminals, as it will damage the ELC. Check all the wiring prior to power up. To avoid any electromagnetic noise, make sure the ELC is properly grounded .•Warning – Do not disconnect while circuit is live unless area is known to be non-hazardous. •Power, input and output (I/O) wiring must be in accordance with Class 1, Div. 2 wiring methods - Article 501-10(B)(1) of the National Electrical Code.•Suitable for use in Class 1, Division 2, Groups A, B, C, D or Non-Hazardous locations only. •Warning – Explosion hazard - Substitution of components may impair suitability for Class 1, Division 2.•Warning – Explosion hazard - Do not disconnect equipment unless power has been switched off or the area is known to be Non-Hazardous.1 INTRODUCTION1.1 Model Explanation and PeripheralsThank you for choosing Eaton Logic Controller (ELC) series products. The ELC-TC04ANNN allows the connection of four thermocouple sensors (Type J.K.R.S.T). There are 49 Controlled Registers in each module (each register is 16 bits). The thermocouple sensors Module of ELC-TC04ANNN can read/write the data of analog input module by using commands FROM / TO via ELC program.The ELC-TC04ANNN works with both Centigrade and Fahrenheit. The input resolution for Centigrade is 0.1 degrees and for Fahrenheit is 0.18 degrees.1.2 Product Profile and OutlineUnits: mm1.Status indicator (Power, RUN and ERROR)2.Model Name3.Extension unit clip4.Input/output terminal5.DIN rail clip6.Mounting hole of the extension unitplate 8.Extensionunitclip 9.DIN rail (35mm) 10.Extension port11.RS-485 Communication port 12.2 pin removable terminal (standard accessory)13.DC power input 14.Power input cable (standard accessory) 1.3 External wiringNote 1: Use only the wires that aresupplied with your thermocouplesensor. ELC terminal screws should betightened to 1.95 kg-cm (1.7 lb-in).Note 2: Terminal SLD is a groundinglocation for noise suppression.Note 3: Please connectof power supply module andterminal of ELC-TC04ANNNthermocouple sensors module tosystem earth ground.Warning: DO NOT connect wires to theNo Connection terminals. Use CopperConductor Only, 60/75 °C.terminal ofpower module2 STANDARD SPECIFICATIONSFunction SpecificationsThermocouple sensors Module Centigrade (°C) Fahrenheit (°F)Power supply voltage 24 VDC(20.4VDC~28.8VDC) ( –15%~+20%)Analog input channel 4 channels per moduleSensors type J-type, K-type, R-type, S-type and T-type thermocoupleTemperature input rangeJ type : -100~700℃℃℃℃℃℃℃℃℃℃℉℉℉℉℉℉℉℉℉℉K type : -100~1,000R type : -10~1,700S type : -10~1,700T type : -100~350J type : -148~1,292K type : -148~1,832R type : -14~3,092S type : -14~3,092T type : -148~662Digital conversion rangeJ type : K-1,000~K7,000K type : K-1,000~K10,000R type : K-100~K17,000S type : K-100~K17,000T type : K-1,000~K3,500J type : K-1,480~K12,920K type : K-1,480~K18,320R type : K-140~K30,920S type : K-140~K30,920T type : K-1,480~K6,620Resolution 14 bits(0.1°C) 14bits(0.18°F)Overall accuracy ±(1% of full scale+1°C), during 0~55°C (32~131°F)Response time 350 ms × channelsIsolation MethodIsolation between digital and analog circuitry. There is no isolation betweenchannels.IsolationField to Digital Area: 500VField to Analog Area: 500VAnalog area to Digital Area: 500VField to 24VDC: 500VDigital data format 2’s complement of 16-bit, (13 Significant Bits)Average function Yes (CR#2~CR#5 may be set and the range is K1~K100)Self diagnostic function YesCommunication mode (RS-485)MODBUS ASCII/RTU Mode. Communication baud rate of 4,800 / 9,600 /19,200 / 38,400 / 57,600 / 115,200. For ASCII mode, date format is 7Bits,even, 1 stop bit (7,E,1). For RTU mode, date format is 8Bits, even, 1 stop bit(8,E,1). The RS-485 is disabled when the ELC-TC04ANNN is connected inseries to an ELC.Connection to a ELC in seriesWhen ELC-TC04ANNN modules are connected to an ELC, the modules arenumbered from 0 - 7. 0 is the closest to the ELC and 7 is the furthest. TheMaximum number of modules is 8 modules and they do not occupy any digitalI/O points of the ELC.Maximum power consumption 2W at 24 VDC (20.4VDC~28.8VDC) ( -15 % ~ +20 %)Noise ImmunityESD(IEC 61131-2, IEC 61000-4-2): 8KV Air DischargeEFT(IEC 61131-2, IEC 61000-4-4): Power Line: 2KV, Digital I/O: 1KV, Analog &Communication I/O: 1KVRS(IEC 61131-2, IEC 61000-4-3): 26MHz~1GHz, 10V/mGroundingThe diameter of the grounding wire cannot be smaller than that of terminals24V and 0V (if numerous ELCs are used at the same time, make sure thateach ELC is grounded respectively to the ground poles)Vibration/Shock ImmunityInternational Standard Regulations: IEC61131-2, IEC 68-2-6 (TEST Fc)/IEC61131-2 & IEC 68-2-27 (TEST Ea)Operation/Storage EnvironmentOperation: 0℃~55℃(temperature), 50~95% (humidity), pollution degree: 2;Storage: -25℃~70℃(temperature), 5~95% (humidity)Agency ApprovalsUL508UL1604, Class1,Div2 Operating temperature code: T5European community EMC Directive 89/336/EEC and Low Voltage Directive73/23/EEC3CR (CONTROLLED REGISTER)ELC-TC04ANNN EXPLANATIONCRNo.ParameterComm.addressLatched Registername b15b14B13b12b11b10b9b8b7b6b5b4b3b2b1b0#0H 4096 O R Model typeSystem used, data length is 8bits (b7~b0). ELC-TC04ANNN model code = H8B#1H 4097 O R/W Thermocouple typeReserved CH4 CH3 CH2 CH1Example: Setting of CH11. (b2~b0) set(0,0,0) to use J type.2. (b2~b0) set(0,0,1) to use K type.3. (b2~b0) set(0,1,0) to use R type.4. (b2~b0) set(0,1,1) to use S type.5. (b2~b0) set(1,0,0) to use T type.#2H 4098 O R/W CH1 average numberThe number of readings used for “average” temperature on channelsCH1~CH4.Setting range is K1~K100 and factory setting is K10.#3H 4099 O R/W CH2 average number#4H 409A O R/W CH3 average number#5H 409B O R/W CH4 average number#6H 409C X R CH1 average degrees(°C)Average degrees for channels CH1~CH4. (unit: 0.1 degrees C)#7H 409D X R CH2 average degrees(°C)#8H 409E X R CH3 average degrees(°C)#9H 409F X R CH4 average degrees(°C)#10H 40A0 X R CH1 average degrees(°F)Average degrees for channels CH1~CH4. (unit: 0.1 degrees F)#11H 40A1 X R CH2 average degrees(°F)#12H 40A2 X R CH3 average degrees(°F)#13H 40A3 X R CH4 average degrees(°F)#14H 40A4 X R Present temp. of CH1 (°C)Present temperature of channels CH1~CH4. (unit: 0.1 degrees C)#15H 40A5 X R Present temp. of CH2 (°C)#16H 40A6 X R Present temp. of CH3 (°C)#17H 40A7 X R Present temp. of CH4 (°C)#18 Reserved#19H 40A9 X R Present temp. of CH1 (°F)Present temperature of channels CH1~CH4. (unit: 0.1degrees F)#20H 40AA X R Present temp. of CH2 (°F)#21H 40BB X R Present temp. of CH3 (°F)#22H 40BC X R Present temp. of CH4 (°F)#23 Reserved#24H 40AE O R/W CH1 OFFSET ValueAdjust offset value of channels CH1~CH4. The range is -1,000~+1,000 andfactory setting is K0. (unit: 0.1 degrees C)#25H 40AF O R/W CH2 OFFSET Value#26H 40B0 O R/W CH3 OFFSET Value#27H 40B1 O R/W CH4 OFFSET Value#28~ #29 Reserved#30H 40B4 X R ErrorstatusData register stores the error status; refer to fault code chart for details.#31H 40B5 O R/WCommunication addresssettingRS-485 communication address.Setting range is 01~255 and factory setting is K1#32H 40B6 O R/WCommunication baud ratesettingCommunication baud rate (4,800, 9,600, 19,200, 38,400, 57,600 and 115,200bps).b0: 4,800 bps (bit/sec).b1: 9,600 bps (bit/sec). (factory setting)b2: 19,200 bps (bit/sec).b3: 38,400 bps (bit/sec).b4: 57,600 bps (bit/sec).b5: 115,200 bps (bit/sec).b6~b13: Reserved.b14: switch between low bit and high bit of CRC code (only for RTU mode)b15: RTU mode.#33H 4085 O R/W Reset to factory settingb15 b14 b13b12b11b10b9b8b7b6b5b4b3b2b1b0Def. of ERR LED CH4 CH3 CH2 CH1PULSE 16-bit 32-bit PB PC PA PH PB PC PA PH PB PC PA PHPULSE 16-bit 32-bitPB PC PA PH PB PC PA PH PB PC PA PHELC-TC04ANNNEXPLANATIONCR No.ParameterComm. addressLatched Register nameb15 b14 B13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3b2b1 b0Example: Setting of CH1 1. b0 Reserved 2. b1 Reserved3. b2: Set to 1 and ELC will be reset to factory settings. Definition of ERR LED: b12~b15=1111(factory settings)1. b12 corresponds to CH1: when b12=1, scale exceeds the range, ERR LED flashes.2. b13 corresponds to CH2: when b13=1, scale exceeds the range, ERR LED flashes.3. b14 corresponds to CH3: when b14=1, scale exceeds the range, ERR LED flashes.4. b15 corresponds to CH4: when b15=1, scale exceeds the range, ERR LED flashes.#34 H 40B8 OR System version Display software version in hexadecimal. Example: H 010A = version 1.0A.#35~#48 System used O means latched. X means not latched.R means can read data by using FROM command or RS-485. W means can write data by using TO command or RS-485.Explanation:1. CR#0: The ELC model type.2. CR#1: Used to set the working mode of four channels (CH1~CH4). There are 2 modes (J-type and K-type) for each channel and allow to set separately. For example, If you want to set CH1~CH4 as CH1: mode 0 (b2~b0=000), CH2: mode 1(b5~b3=001), CH3: mode0(b8~b6=000) and CH4: mode 1(b11~b9=001), you should set CR#1 to H0208. The higher bits (b12~b15) will be reserved and the factory setting is H0000.3. CR#2 ~ CR#5: Used to set the number of input readings used for the average temperature calculation. The available range is K1~K100 and factory setting is K10. (Note: When PLC sets average times via TO/DTO instructions, please use rising-edge/falling-edge detection instruction (such as LDP and LDF) to get correct average times.)4. CR#6 ~ CR#9: The average temperature (°C). The average temperature is calculated using multiple temperature readings. Example: If CR#2 is 10, the temperature in CR#6 will be the average of the last 10 readings on CH1.5. CR#10 ~ CR#13: The average temperature (°C). The average temperature is calculated using multiple temperature readings. Example: If CR#2 is 10, the temperature in CR#12 will be the average of the last 10 readings on CH1.6. CR#14 ~ CR#17: display present temperature (°C) of CH1~CH4 input signal.7. CR#18, CR#23, CR#28, CR#29 are reserved.8. CR#19 ~ CR#22: display present temperature (°F) of CH1~CH4 input signal.9. CR #24 ~ CR #27: display offset value of channels CH1~CH4. The range is -1,000~+1,000 and unit is 0.1 degrees C. The definition of OFFSET is Actual temperature = temperature measured by ELC-TC04ANNN – OFFSET value.10. CR#30 is a fault code register. Refer to the following chart.Fault descriptionContent b15~b8 b7 b6 b5 b4 b3 b2 b1 b0Power source abnormal K1(H1) Reserved 0 0 0 0 0 0 0 1 Analog input value error K2(H2) 01Setting mode error K4(H4)0 0 0 0 0 1 0 0 Offset/Gain error K8(H8)0 0 0 0 1 0 0 0 Hardware malfunction K16(H10) 0 0 0 1 0 0 0 0 Digital range error K32(H20) 0 0 1 0 0 0 0 0 Average timessetting error K64(H40)0 1 0 0 0 0 0 0 Command error K128(H80) 1 0 0 0 0 0 0 0Note: Each fault code will have corresponding bit (b0~b7). Two or more faults may happen at the same time. 0 means normaland 1 means having fault.11. CR#31: RS-485 communication address. Setting range is 01~255 and factory setting is K1. 12. CR#32: RS-485 communication baud rate: 4,800, 9,600, 19,200, 38,400, 57,600 and115,200. b0:4,800bps, b1:9,600bps (factory setting), b2:19,200bps, b3:38,400 bps,b4:57,600 bps, b5:115,200 bps, b6~b13: Reserved, b14: switch between low bit and high bit of CRC code (only for RTU mode) b15: ASCII / RTU mode. For ASCII mode, date format is7Bits, even, 1 stop bit (7,E,1). For RTU mode, date format is 8Bits, even, 1 stop bit (8,E,1). 13. CR#33: Used to reset the settings of CR registers to factory defaults. 14. CR#34: software version.15. CR#35~ CR#48: Reserved for internal system use.16. The corresponding parameters address H 4096~H 40B8 of CR#0~CR#34 may provide usersto read/write data via RS-485 communication.a)Communication baud rate: 4,800, 9,600, 19,200, 38,400, 57,600, 115,200 bps. b) Communication format: ASCII mode is 7Bit, even bit, 1 stop bit (7,E,1). Communicationformat of RTU mode is 8Bit, even bit, 1 stop bit (8,E,1).c) Function code: 03H—read data from register. 06H—write a WORD into register.10H—write many WORDs into register.4 TEMPERATURE/DIGITAL CHARACTERISTIC CURVETemperature mode: (Centigrade/Fahrenheit)J-type thermocouple sensorsDigital OutputK-type thermocouple sensorsDigital OutputR/S-type thermocouple sensorsDigital OutputT-type thermocouple sensorsDigital Output5 INITIAL ELC START-UPLED display:1. Upon power-up, the ERROR LED will light for 0.5 seconds the POWER LED will light continuously.2. No errors= POWER LED on and ERROR LED off.3. Low Voltage error (lower than 19.5V), ERROR LED will blink continuously till the power supply rises above 19.5V.4. ELC-TC04ANNN connected to ELC in series = RUN LED on ELC will be lit and A/D LED or D/A LED should blink.5. After receiving the first RS-485 command the A/D LED or D/A LED will blink.6. If the input or output exceeds the upper or lower bounds, then the ERROR LED will blink. Example:M1000FROMK0= H8B D0TOK0FROM K0FROM K0FROM K0FROM K0ENDM1002Explanation:1. Reading the model type of extension module K0 (should be H8B for ELC-TC04ANNN modeltype). 2. The averaging number for CH1~CH4 will be D10~D13.3. If the model type is ELC-TC04ANNN. Reading the average temperature (°C) of CH1~CH4 (4 data) from CR#6~CR#9 and save them into D20~D23.4. Reading the average temperature (°F) of CH1~CH4 (4 data) from CR#10~CR#13 and save them into D24~D27.5. Reading the present temperature (°C) of CH1~CH4 (4 data) from CR#14~CR#17 and save them into D30~D33.6. Reading the present temperature (°F) of CH1~CH4 (4 data) from CR#19~CR#22 and save them into D34~D37. 6RELATED INSTRUCTIONS EXPLANATIONOperands:m 1: Number for special module (m 1=0~7) m 2: Number of CR (Control Register) of special module (m 2=0~48) that will be read D : Location to save read data n : Data words to read at one time (n=1~(49- m 2) ) Explanations:ELC uses this instruction to read CR data of special modules.API Mnemonic OperandsFunctionControllers PBPCPA PH79 D TO PWrite CR to Modulem 1: Number of special module (m 1=0~7) m 2: Number of CR (Control Register) of special module that will be written to (m 2=0~48) S : Data to write in CR n : number of words to write one time (n =1~(49- m 2) ) ELC uses this instruction to write CR data of special modules.Explanations:Operands:。

Nff 00608 套管

NF F 00-608标记热缩套管（manchon）和热缩套管（gaine）1适用范围本文定义了，铁路设备中使用的-标记用的热缩套管（manchon）-用于机械和电气保护的无粘合剂的热缩套管（gaine）的特性，认证条件，试验，条件和运输它被NF F 61-010标准《一般布线规则》所推荐。

23定义本文所需的定义如下：膨胀状态：产品送货时的状态自由热缩状态：在不用导线或者其他物品的情况下，产品最大热缩4命名法一个本文所讨论的标记热缩套管的命名包括：-字母GT表示热缩套管，字母MRT表示标记热缩套管-接着一个字母表示其使用功能- A表示不耐在可燃性液体- H表示耐在可燃性液体-内径，单位mm，在膨胀状态时-壁厚，单位mm，在自由缩进状态时-缩进系数：2/1，3/1，4/1等等-本文参考例子1：GT.A.7.5-0.3-3/1-NF F 00-608热缩套管（gaine），不耐可燃性液体，膨胀状态时内径7.5mm，自由缩进状态时壁厚0.3mm，缩进系数3/1，符合NF F 00-608标准例子2：MRT.H.9.5-0.75-2/1-NF F 00-608标记热缩套管（manchon），耐可燃性液体，膨胀状态时内径9.5mm，自由缩进状态时壁厚0.75mm，缩进系数2/1，符合NF F 00-608标准标记套管5特性5.1组成材料热缩套管（gaine）和标记热缩套管（manchon）使用基于弹性体或塑性体或两者混合物的材料。

5.2表面热缩套管（gaine）和标记热缩套管（manchon）表面不应该粗糙。

A和H型热缩套管（gaine）应该是黑色，如果订单中制定了另外的颜色，那他应该符合CEI 304公布文件中所定义的，不包括：土耳其色，紫色，粉红色和橙色。

A型标记热缩套管（manchon）是白色的，H型标记热缩套管（manchon）是黄色的。

表面检查指导见11.1章节。

5.3几何特性5.3.1尺寸膨胀状态时的内径，不能低于供应商确定的值。