PB114006中文资料

仕 様 書形 名ＣＤＲＨ６４1．外形1-1．寸法図(mm)1-2．捺印表示例 1-3．推奨ランド寸法 (ｍｍ)2．コイル仕様 2-1．端子接続図(裏面図)電極（端子）間の隙間はシルク処理をして御使用下さい。

頭部直捺印捺印位置不定compliance Cd:Max.0.01wt%others:Max.0.1wt%RoHS1仕 様 書 形 名ＣＤＲＨ６４2-2.電気的特性Ⅰ(リール の場合)NO. 品 名 表示 インダクタンス［以内］※1D.C.R.(Ω)[以下](at 20℃)※2定格電流(Ａ)※3スミダコード0102 CDRH64NP-1ØØMCCDRH64NP-12ØMC10012010 μH ± 20%12 μH ± 20%0.11(84m)0.13(96m)1.681.514732-00134732-00150304 CDRH64NP-15ØMCCDRH64NP-18ØMC15018015 μH ± 20%18 μH ± 20%0.14(0.11)0.16(0.12)1.321.184732-00164732-00170506 CDRH64NP-22ØMCCDRH64NP-27ØMC22027022 μH ± 20%27 μH ± 20%0.21(0.16)0.29(0.23)1.060.954732-00184732-00190708 CDRH64NP-33ØMCCDRH64NP-39ØMC33039033 μH ± 20%39 μH ± 20%0.33(0.25)0.35(0.27)0.880.774732-00204732-00210910 CDRH64NP-47ØMCCDRH64NP-56ØMC47056047 μH ± 20%56 μH ± 20%0.39(0.30)0.43(0.34)0.760.674732-00224732-00231112 CDRH64NP-68ØMCCDRH64NP-82ØMC68082068 μH ± 20%82 μH ± 20%0.59(0.46)0.66(0.51)0.600.574732-00244732-00261314 CDRH64NP-1Ø1MCCDRH64NP-121MC101121100μH ± 20%120μH ± 20%0.76(0.58)0.83(0.64)0.500.474732-00274732-00281516 CDRH64NP-151MCCDRH64NP-181MC151181150μH ± 20%180μH ± 20%1.24(0.96)1.89(1.51)0.420.374732-00294732-00301718 CDRH64NP-221MCCDRH64NP-271MC221271220μH ± 20%270μH ± 20%2.10(1.68)2.37(1.90)0.340.314732-00314732-00321920 CDRH64NP-331MCCDRH64NP-391MC331391330μH ± 20%390μH ± 20%2.66(2.13)2.94(2.35)0.270.264732-00334732-00342122 CDRH64NP-471MCCDRH64NP-561MC471561470μH ± 20%560μH ± 20%3.89(3.11)5.25(4.20)0.240.214732-00354732-00372324 CDRH64NP-681MCCDRH64NP-821MC681821680μH ± 20%820μH ± 20%5.97(4.78)6.54(5.23)0.180.174732-00384732-003925 CDRH64NP-1Ø2MC 102 1.0 mH ± 20% 8.94(7.15) 0.16 4732-0040※1: 測定周波数 Ｌ at 1 kHz※2: ( )内は、標準値とする。

CD4066中文资料：CD4066是四双向模拟开关，主要用作模拟或数字信号的多路传输。

引出端排列与CC4016一致，但具有比较低的导通阻抗。

另外，导通阻抗在整个输入信号范围内基本不变。

CD4066由四个相互独立的双向开关组成，每个开关有一个控制信号，开关中的p和n器件在控制信号作用下同时开关。

这种结构消除了开关晶体管阈值电压随输入信号的变化，因此在整个工作信号范围内导通阻抗比较低。

与单通道开关相比，具有输入信号峰值电压范围等于电源电压以及在输入信号范围内导通阻抗比较稳定等优点。

但若应用于采保电路，仍推荐CD4016。

当模拟开关的电源电压采用双电源时，例如=﹢5V，=﹣5V（均对地0V而言），则输入电压对称于0V的正、负信号电压（﹢5V～﹣5V）均能传输。

这时要求控制信号C=“1”为+5V，C=“0”为-5V，否则只能传输正极性的信号电压。

CD4066引脚功能图内部方框图Absolute Maximum Ratings 绝对最大额定值：Supply V oltage电源电压(VDD)−0.5V to +18VInput V oltage输入电压(VIN)−0.5V to VCC+0.5V Storage Temperature Range储存温度范围(TS)−65℃ to +150℃Power Dissipation功耗(PD)Dual-In-Line 普通双列封装700 mWSmall Outline 小外形封装500 mWLead Temperature 焊接温度(TL)Soldering, 10 seconds)（焊接10秒）300℃Recommended Operating Conditions 建议操作条件：Supply V oltage电源电压(VDD)3V to 15V Input V oltage输入电压(VIN)0V to VDD Operating Temperature Range工作温度范围(TA)−55℃ to +125℃DC Electrical Characteristics 直流电气特性：Sym bol 符号Parameter 参数Conditions 条件−55℃+25℃+125℃Units 单位最小最大最小典型最大最小最大IDD QuiescentDevice Current静态电流VDD = 5V0.250.010.257.5μA VDD = 10V0.50.010.515VDD = 15V1.0.011.030SIGNAL INPUTS AND OUTPUTSRON“ON” RL = 10 kΩ to (VDD − VSS/2) VC = VDD, VSS to VDDResistanceVDD = 5V 802701051300ΩVDD = 10V 31120400550VDD = 15V 2080240320ΔRO N Δ“ON”ResistanceBetween Any 2of 4 SwitchesRL = 10kΩ to (VDD − VSS/2) VCC = VDD, VIS = VSS to VDDVDD = 10V10ΩVDD = 15V5IIS Input or OutputLeakage Switch“OFF”VC = 0±5±0.1±50±500nACONTROL INPUTSVIL C LOW LevelInput V oltage输入低电平电压VIS = V SS and VDD VOS = V DD and VSS IIS = ± 10μAVDD = 5V1.52.251.5 1.5V VDD = 10V3.4.5 3.0 3.0VDD = 15V4.6.754.0 4.0VIH C HIGH LevelInput V oltage输入高电平电压VDD = 5V 3.5 3.52.753.5V VDD=10V (Note7)7.07.0 5.57.VDD = 15V11.11.8.2511.IIN Input Current输入电流VDD−VSS = 15VVDD≥VIS≥VSSVDD≥VC≥VSS−0.1−10−5−0.1−0.1μA0.110−50.10.1AC Electrical Characteristics 交流电气特性：Symbol 符号Parameter 参数Conditions 条件最小典型最大Units单位tPHL , tPLH Propagation DelayTime Signal Inputto Signal Output信号输入到信号输出传递延迟时间VC = VDD, CL = 50 pF, (Figure 1)RL = 200kVDD = 5V2555nsVDD = 10V1535VDD = 15V125tPZH , tPZL Propagation DelayTime Control Inputto Signal OutputHigh Impedance toLogical LevelRL = 1.0kΩ, CL = 50pF, (Figure 2, Figure 3)VDD = 5V125nsVDD = 10V6VDD = 15V5tPHZ , tPLZ Propagation DelayTime Control Inputto Signal OutputLogical Level toHigh ImpedanceSine WaveDistortionFrequencyResponse-Switch“ON” (Frequencyat −3 dB)RL = 1.0kΩ, CL = 50pFVDD = 5V125nsVDD = 10V6VDD = 15V5VC = VDD = 5V, VSS = −5V RL = 10 kΩ,VIS = 5Vp-p, f= 1 kHz, (Figure 4)0.1%VC = VDD = 5V, VSS = −5V, RL = 1 kΩ,VIS = 5Vp-p, 20 Log10 VOS/VOS (1kHz)−dB,(Figure 4)4MHzFeedthrough —Switch “OFF”(Frequency at −50dB) CrosstalkBetween Any TwoSwitches(Fre quency at −50dB) Crosstalk;Control Input toSignal OutputMaximum ControlInputVDD = 5.0V, VCC = VSS = −5.0V, RL = 1kΩ, VIS = 5.0Vp-p, 20 Log10, VOS/VIS =−50 dB, (Figure 4)1.25VDD=VC(A) =5.0V; VSS = VC(B) = 5.0V,RL1kΩ, VIS(A) = 5.0Vp-p, 20 Log10,VOS(B)/VIS(A) = −50dB (Figure 5)0.9MHzVDD =10V,RL=10kΩ,RIN=1.0kΩ,VCC=10V Square Wave, CL=50pF(Figure 6)15mVp-p RL=1.0kΩ, CL=50pF, (Figure 7)VOS(f) = ½ VOS(1.0 kHz)VDD = 5.0V6.MHzVDD = 10V8.VDD = 15V8.5CIS Signal InputCapacitance信号输入电容8.pFCOS Signal OutputCapacitance信号输出电容VDD = 10V8.pFCIO S FeedthroughCapacitance馈电容VC = 0V0.5pFCIN Control InputCapacitance控制输入电容5.7.5pF图1 CD4066是四双向模拟开关驱动继电器应用电路CD4066是四双向模拟开关，集成块SCR1～SCR4为控制端，用于控制四双向模拟开关的通断。

DESCRIPTIONThe ADS7816 is a 12-bit, 200kHz sampling analogto-digital converter. It features low power operationwith automatic power down, a synchronous serialinterface, and a differential input. The reference voltage can be varied from 100mV to 5V, with a corresponding resolution from 24µV to 1.22mV.Low power, automatic power down, and small sizemake the ADS7816 ideal for battery operated systemsor for systems where a large number of signals must beacquired simultaneously. It is also ideal for remoteand/or isolated data acquisition. The ADS7816 isavailable in an 8-pin plastic mini-DIP, an 8-lead SOIC,or an 8-lead MSOP package.12-Bit High Speed Micro Power SamplingANALOG-TO-DIGITAL CONVERTER®©1996 Burr-Brown Corporation PDS-1355B Printed in U.S.A., March, 1997International Airport Industrial Park • Mailing Address: PO Box 11400, Tucson, AZ 85734 • Street Address: 6730 S. Tucson Blvd., Tucson, AZ 85706 • Tel: (520) 746-1111 • Twx: 910-952-1111Internet: / • FAXLine: (800) 548-6133 (US/Canada Only) • Cable: BBRCORP • Telex: 066-6491 • FAX: (520) 889-1510 • Immediate Product Info: (800) 548-6132FEATURES●200kHz SAMPLING RA TE●MICRO POWER:1.9mW at 200kHz150µW at 12.5kHz●POWER DOWN: 3µA Max●8-PIN MINI-DIP, SOIC, AND MSOP●DIFFERENTIAL INPUT●SERIAL INTERFACEAPPLICATIONS●BATTERY OPERATED SYSTEMS●REMOTE DATA ACQUISITION●ISOLATED DATA ACQUISITIONSAR ControlSerialInterfaceDOUTS/H Amp ComparatorDCLOCK+InVREF–InCDACOPA658ADS7816ADS7816SBAS0612®ADS7816SPECIFICATIONSAt –40°C to +85°C, +VCC = +5V, VREF= +5V, fSAMPLE= 200kHz, fCLK= 16 • fSAMPLE, unless otherwise specified.ADS7816 ADS7816B ADS7816CPARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS ANALOG INPUTFull-Scale Input Span +In – (–In) 0 VREF ✻✻✻✻VAbsolute Input Voltage +In –0.2 VCC+0.2 ✻✻✻✻V–In –0.2 +0.2 ✻✻✻✻VCapacitance 25 ✻✻pFLeakage Current ±1 ✻✻µASYSTEM PERFORMANCEResolution 12 ✻✻BitsNo Missing Codes 11 12 ✻BitsIntegral Linearity Error ±0.5 ±2 ±0.5 ±2 ±0.5 ±1 LSB(1)Differential Linearity Error ±0.5 ±2 ±0.5 ±1 ±0.25 ±0.75 LSBOffset Error ±4 ✻✻LSBGain Error ±4 ✻✻LSBNoise 33 ✻✻µVrmsPower Supply Rejection 82 ✻✻dBSAMPLING DYNAMICSConversion Time 12 ✻✻Clk CyclesAcquisition Time 1.5 ✻✻Clk CyclesThroughput Rate 200 ✻✻kHzDYNAMIC CHARACTERISTICSTotal Harmonic Distortion VIN= 5.0Vp-p at 1kHz –84 ✻✻dBVIN= 5.0Vp-p at 5kHz –82 ✻✻dBSINAD VIN= 5.0Vp-p at 1kHz 72 ✻✻dBSpurious Free Dynamic Range VIN= 5.0Vp-p at 1kHz 86 ✻✻dBREFERENCE INPUTV oltage Range 0.1 5 ✻✻✻✻VResistance CS = GND, fSAMPLE = 0Hz 5 ✻✻GΩCS = VCC 5 ✻✻GΩCurrent Drain At Code 710h 38 100 ✻✻✻✻µA fSAMPLE= 12.5kHz 2.4 20 ✻✻✻✻µACS = VCC 0.001 3 ✻✻✻✻µADIGITAL INPUT/OUTPUTLogic Family CMOS ✻✻Logic Levels:VIH IIH = +5µA 3 +VCC+0.3 ✻✻✻✻VVILIIL= +5µA –0.3 0.8 ✻✻✻✻VVOH IOH = –250µA 3.5 ✻✻VVOLIOL= 250µA 0.4 ✻✻VData Format Straight Binary ✻✻POWER SUPPL Y REQUIREMENTSVCC Specified Performance 4.50 5.25 ✻✻✻✻V Quiescent Current 380 700 ✻✻✻✻µA fSAMPLE= 12.5kHz(2, 3)30 ✻✻µAfSAMPLE= 12.5kHz(3)280 400 ✻✻µAPower Down CS = VCC, fSAMPLE= 0Hz 3 ✻✻µATEMPERATURE RANGESpecified Performance –40 +85 ✻✻✻✻°C✻Specifications same as grade to the left.NOTE: (1) LSB means Least Significant Bit, with VREFequal to +5V, one LSB is 1.22mV. (2) fCLK= 3.2MHz, CS = VCC for 251 clock cycles out of every 256. (3) Seethe Power Dissipation section for more information regarding lower sample rates.3®ADS7816The information provided herein is believed to be reliable; however, BURR-BROWN assumes no responsibility for inaccuracies or omissions. BURR-BROWNassumes no responsibility for the use of this information, and all use of such information shall be entirely at the user’s own risk. Prices and specifications are subjectto change without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. BURR-BROWN does notauthorize or warrant any BURR-BROWN product for use in life support devices and/or systems. ELECTROSTATICDISCHARGE SENSITIVITYElectrostatic discharge can cause damage ranging from performance degradation to complete device failure. BurrBrown Corporation recommends that all integrated circuitsbe handled and stored using appropriate ESD protectionmethods.ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuitsmay be more susceptible to damage because very smallparametric changes could cause the device not to meetpublished specifications.ABSOLUTE MAXIMUM RATINGS(1)+VCC ..................................................................................................... +6VAnalog Input ........................................................... –0.3V to (+VCC + 0.3V)Logic Input ............................................................. –0.3V to (+VCC + 0.3V)Case Temperature ......................................................................... +100°CJunction Temperature .................................................................... +150°CStorage Temperature ..................................................................... +125°CExternal Reference V oltage .............................................................. +5.5VNOTE: (1) Stresses above these ratings may permanently damage the device.PIN CONFIGURATIONPIN ASSIGNMENTSPIN NAME DESCRIPTION1 VREF Reference Input.2 +In Non Inverting Input.3 –In Inverting Input. Connect to ground or to remote ground sense point.4 GND Ground.5 CS/SHDN Chip Select when LOW, Shutdown Mode when HIGH.6 DOUTThe serial output data word is comprised of 12 bits of data. In operation the data is valid on the falling edge of DCLOCK. Thesecond clock pulse after the falling edge of CS enables the serial output. After one null bit the data is valid for the next 12 edges.7 DCLOCK Data Clock synchronizes the serial data transfer and determines conversion speed.8 +VCC Power Supply.PACKAGE/ORDERING INFORMATIONMAXIMUM MAXIMUMINTEGRAL DIFFERENTIAL PACKAGELINEARITY ERROR LINEARITY ERROR TEMPERA TURE DRAWINGPRODUCT (LSB) (LSB) RANGE PACKAGE NUMBER(1)ADS7816P ±2 ±2 –40°C to +85°C Plastic DIP 006ADS7816U ±2 ±2 –40°C to +85°C SOIC 182ADS7816E ±2 ±2 –40°C to +85°C MSOP 337ADS7816PB ±2 ±1 –40°C to +85°C Plastic DIP 006ADS7816UB ±2 ±1 –40°C to +85°C SOIC 182ADS7816EB ±2 ±1 –40°C to +85°C MSOP 337ADS7816PC ±1 ±0.75 –40°C to +85°C Plastic DIP 006ADS7816UC ±1 ±0.75 –40°C to +85°C SOIC 182ADS7816EC ±1 ±0.75 –40°C to +85°C MSOP 337NOTE: (1) For detailed drawing and dimension table, please see end of data sheet, or Appendix C of Burr-Brown IC Data Book.12348765+VCCDCLOCKDOUTCS/SHDNVREF+In–InGNDADS78168-Pin PDIP,8-Lead SOIC,8-Lead MSOP4®ADS7816TYPICAL PERFORMANCE CURVESAt TA = +25°C, VCC = +5V, VREF = +5V, fSAMPLE = 200kHz, and fCLK = 16 • fSAMPLE, unless otherwise specified.CHANGE IN OFFSET vs REFERENCE VOLTAGE54.543.532.521.510.5Change in Offset (LSB)1 2 3 4 5Reference Voltage (V)CHANGE IN OFFSET vs TEMPERATURE0.60.40.2–0.2–0.4–0.6Delta from 25°C (LSB)–55 –40 –25 0 25 70 85Temperature (°C)CHANGE IN GAIN vs REFERENCE VOLTAGE 43.532.521.510.5Change in Gain (LSB)1 2 3 4 5Reference Voltage (V)CHANGE IN GAIN vs TEMPERA TURE0.150.10.05–0.05–0.1–0.15Delta from 25°C (LSB)–55 –40 –25 0 25 70 85Temperature (°C)EFFECTIVE NUMBER OF BITSvs REFERENCE VOLTAGE1211.7511.511.251110.7510.510.2510Effective Number of Bits (rms)0.1 1 10Reference Voltage (V)PEAK-TO-PEAK NOISE vs REFERENCE VOLTAGE 10987654321Peak-to-Peak Noise (LSB)0.1 1 10Reference Voltage (V)5®ADS7816SIGNAL-TO-(NOISE + DISTORTION) vs INPUT LEVEL 8070605040302010Signal-to-(Noise Ratio Plus Distortion) (dB)–40 –35 –30 –25 –20 –15 –10 –5 0Input Level (dB)SIGNAL-TO-(NOISE + DISTORTION) vs FREQUENCY 100908070605040302010Signal-to-(Noise + Distortion) (dB)1 10 100Frequency (kHz)TYPICAL PERFORMANCE CURVES (CONT)At TA = +25°C, VCC = +5V, VREF = +5V, fSAMPLE = 200kHz, and fCLK = 16 • fSAMPLE, unless otherwise specified.POWER SUPPL Y REJECTION vs RIPPLE FREQUENCY–10–20–30–40–50–60–70–80–90Power Supply Rejection (dB)1 10 100 1000 10000Ripple Frequency (kHz)TOTAL HARMONIC DISTORTION vs FREQUENCY–10–20–30–40–50–60–70–80–90–100Total Harmonic Distortion (dB) 1 10 100Frequency (kHz) FREQUENCY SPECTRUM(2048 Point FFT; fIN= 9.9kHz, –0.5dB)–10–20–30–40–50–60–70–80–90–100–110–120Amplitude (dB)0 25 50 75 100Frequency (kHz)SPURIOUS FREE DYNAMIC RANGE andSIGNAL-TO-NOISE RA TIO vs FREQUENCY100908070605040302010Spurious Free Dynamic Rangeand Signal-to-Noise Ratio (dB)1 10 100Frequency (kHz)Spurious Free Dynamic RangeSignal-to-Noise Ratio6®ADS7816TYPICAL PERFORMANCE CURVES (CONT)At TA = +25°C, VCC = +5V, VREF = +5V, fSAMPLE = 200kHz, and fCLK = 16 • fSAMPLE,unless otherwise specified.INTEGRAL LINEARITY ERROR vs CODE1.000.750.500.250.00–0.25–0.50–0.75–1.00Integral Linearity Error (LSB)0 2048 4095CodeDIFFERENTIAL LINEARITY ERROR vs CODE1.000.750.500.250.00–0.25–0.50–0.75–1.00Differential Linearity Error (LSB)0 2048 4095CodeCHANGE IN INTEGRAL LINEARITY AND DIFFERENTIALLINEARITY vs REFERENCE VOLTAGE0.100.050.00–0.05–0.10–0.15–0.20Delta from +5V Reference (LSB)1 2 3 4 5Reference Voltage (V)Change in DifferentialLinearity (LSB)Change in IntegralLinearity (LSB)INPUT LEAKAGE CURRENT vs TEMPERATURE 1010.10.01Leakage Current (nA)–55 –40 –25 0 25 70 85Temperature (°C)SUPPL Y CURRENT vs TEMPERA TURE450400350300250200150Supply Current (µA)–55 –40 –25 0 25 70 85Temperature (°C)fSAMPLE= 12.5kHzfSAMPLE= 200kHzPOWER DOWN SUPPL Y CURRENTvs TEMPERATURE32.521.510.5Supply Current (µA)–55 –40 –25 0 25 70 85Temperature (°C)7®ADS7816TYPICAL PERFORMANCE CURVES (CONT)At TA = +25°C, VCC = +5V, VREF = +5V, fSAMP LE = 200kHz, and fCLK = 16 • fSAMPLE, unless otherwise specified.CHANGE IN INTEGRAL LINEARITY and DIFFERENTIALLINEARITY vs SAMPLE RATE1.51.00.5–0.5Delta from fSAMPLE= 200kHz (LSB)0 100 200 300 400 500Sample Rate (kHz)Change in IntegralLinearity (LSB)Change in DifferentialLinearity (LSB)REFERENCE CURRENT vs TEMPERA TURE(Code = 710h)55504540353025Reference Current (µA)–55 –40 –25 0 25 70 85Temperature (°C)REFERENCE CURRENT vs SAMPLE RA TE(Code = 710h)4035302515105Reference Current (µA)0 40 80 120 160 200Sample Rate (kHz)8®ADS7816THEORY OF OPERA TIONThe ADS7816 is a classic successive approximation register(SAR) analog-to-digital (A/D) converter. The architecture isbased on capacitive redistribution which inherently includesa sample/hold function. The converter is fabricated on a 0.6µCMOS process. The architecture and process allow theADS7816 to acquire and convert an analog signal at up to200,000 conversions per second while consuming very littlepower.The ADS7816 requires an external reference, an externalclock, and a single +5V power source. The external reference can be any voltage between 100mV and VCC. The valueof the reference voltage directly sets the range of the analoginput. The reference input current depends on the conversionrate of the ADS7816.The external clock can vary between 10kHz (625Hz throughput) and 3.2MHz (200kHz throughput). The duty cycle ofthe clock is essentially unimportant as long as the minimumhigh and low times are at least 150ns. The minimum clockfrequency is set by the leakage on the capacitors internal tothe ADS7816.The analog input is provided to two input pins: +In and –In.When a conversion is initiated, the differential input on thesepins is sampled on the internal capacitor array. While aconversion is in progress, both inputs are disconnected fromany internal function.The digital result of the conversion is clocked out by theDCLOCK input and is provided serially, most significant bitfirst, on the DOUTpin. The digital data that is provided on theDOUTpin is for the conversion currently in progress—thereis no pipeline delay. It is possible to continue to clock theADS7816 after the conversion is complete and to obtain theserial data least significant bit first. See the Digital Interfacesection for more information.ANALOG INPUTThe +In and –In input pins allow for a differential input signal.Unlike some converters of this type, the –In input is not resampled later in the conversion cycle. When the convertergoes into the hold mode, the voltage difference between +Inand –In is captured on the internal capacitor array.The range of the –In input is limited to ±200mV. Because ofthis, the differential input can be used to reject only smallsignals that are common to both inputs. Thus, the –In inputis best used to sense a remote signal ground that may moveslightly with respect to the local ground potential.The input current on the analog inputs depends on a numberof factors: sample rate, input voltage, source impedance, andpower down mode. Essentially, the current into the ADS7816charges the internal capacitor array during the sample period. After this capacitance has been fully charged, there isno further input current. The source of the analog inputvoltage must be able to charge the input capacitance (25pF)to a 12-bit settling level within 1.5 clock cycles. When theconverter goes into the hold mode or while it is in the powerdown mode, the input impedance is greater than 1GΩ.Care must be taken regarding the absolute analog inputvoltage. To maintain the linearity of the converter, the –Ininput should not exceed GND ±200mV. The +In inputshould always remain within the range of GND –200mV toVCC+200mV. Outside of these rang es, the converter’s linearity may not meet specifications. REFERENCE INPUTThe external reference sets the analog input range. TheADS7816 will operate with a reference in the range of 100mVto VCC. There are several important implications of this.As the reference voltage is reduced, the analog voltageweight of each digital output code is reduced. This is oftenreferred to as the LSB (least significant bit) size and is equalto the reference voltage divided by 4096. This means thatany offset or gain error inherent in the A/D converter willappear to increase, in terms of LSB size, as the referencevoltage is reduced. The typical performance curves of“Change in Offset vs Reference V oltage‖ and ―Change inGain vs Reference V oltage‖ provide more information.The noise inherent in the converter will also appear toincrease with lower LSB size. With a 5V reference, theinternal noise of the converter typically contributes only0.16 LSB peak-to-peak of potential error to the output code.When the external reference is 100mV, the potential error contribution from the internal noise will be 50 times larger—8 LSBs. The errors due to the internal noise are gaussian innature and can be reduced by averaging consecutive conversion results. For more information regarding noise, consult the typical performance curves ―Effective Number of Bits vs ReferenceV oltage‖ and ―Peak-to-Peak Noise vs Reference V oltage.‖The effective number of bits (ENOB) figure is calculatedbased on the converter’s signal-to-(noise + distortion) ratiowith a 1kHz, 0dB input signal. SINAD is related to ENOBas follows: SINAD = 6.02 • ENOB +1.76.With lower reference voltages, extra care should be taken toprovide a clean layout including adequate bypassing, a cleanpower supply, a low-noise reference, and a low-noise inputsignal. Because the LSB size is lower, the converter will alsobe more sensitive to external sources of error such as nearbydigital signals and electromagnetic interference.The current that must be provided by the external referencewill depend on the conversion result. The current is lowestat full-scale (FFFh) and is typically 25µA at a 200kHzconversion rate (25°C). For the same conditions, the currentwill increase as the input approaches zero, reaching 50µA atan output result of 000h. The current does not increaselinearly, but depends, to some degree, on the bit pattern ofthe digital output.9®ADS7816SYMBOL DESCRIPTION MIN TYP MAX UNITStSMPL Analog Input Sample TIme 1.5 2.0 Clk CyclestCONV Conversion Time 12 Clk CyclestCYC Throughput Rate 200 kHztCSD CS Falling to 0 nsDCLOCK LOWtSUCS CS Falling to 30 nsDCLOCK RisingthDO DCLOCK Falling to 15 nsCurrent DOUTNot ValidtdDO DCLOCK Falling to Next 85 150 nsDOUT Validtdis CS Rising to DOUTTri-State 25 50 nsten DCLOCK Falling to DOUT50 100 nsEnabledtf DOUTFall Time 70 100 nstr DOUT Rise Time 60 100 nsvalue for one clock period. For the next 12 DCLOCKperiods, DOUTwill output the conversion result, most significant bit first. After the least significant bit (B0) has beenoutput, subsequent clocks will repeat the output data but ina least significant bit first format.After the most significant bit (B11) has been repeated, DOUTwill tri-state. Subsequent clocks will have no effect on theconverter. A new conversion is initiated only when CS hasbeen taken HIGH and returned LOW.The reference current diminishes directly with both conversion rate and reference voltage. As the current from thereference is drawn on each bit decision, clocking the converter more quickly during a given conversion period willnot reduce the overall current drain from the reference. Thereference current changes only slightly with temperature.See the curves, ―Reference Current vs Sample Rate‖ and“Reference Current vs Temperatur e‖ in the Typical Performance Curves section for more information.DIGITAL INTERFACESERIAL INTERFACEThe ADS7816 communicates with microprocessors and otherdigital systems via a synchronous 3-wire serial interface asshown in Figure 1 and Table I. The DCLOCK signalsynchronizes the data transfer with each bit being transmitted on the falling edge of DCLOCK. Most receiving systemswill capture the bitstream on the rising edge of DCLOCK.However, if the minimum hold time for DOUTis acceptable,the system can use the falling edge of DCLOCK to captureeach bit.A falling CS signal initiates the conversion and data transfer.The first 1.5 to 2.0 clock periods of the conversion cycle areused to sample the input signal. After the second fallingDCLOCK edge, DOUTis enabled and will output a LOWFIGURE 1. ADS7816 Basic Timing Diagrams.TABLE I. Timing Specifications –40°C to +85°C.CS/SHDNDOUTDCLOCKtDA TAtSUCStCSDtCYCtCONVPOWERDOWNtSMPLNote: (1) After completing the data transfer, if further clocks are applied with CS LOW, the ADC will output LSB-First data then followed with zeroes indefinitely. B11(MSB)B10 B9 B8 B7 B6 B5 B4 B3 B2 B1 B0(1)NULLHI-Z BIT HI-ZB11 B10 B9 B8NULLBITCS/SHDNDOUTDCLOCKtCONVtDA TAtSUCStCYCPOWER DOWNtSMPLNote: (2) After completing the data transfer, if further clocks are applied with CSLOW, the ADC will output zeroes indefinitely.tDA TA: During this time, the bias current and the comparator power down and the reference inputbecomes a high impedance node, leaving the CLK running to clock out LSB-First data or zeroes. B11(MSB)B10 B9 B8 B7 B6 B5 B4 B4 B3 B3 B2 B2 B1 B1 B0NULLHI-Z BIT HI-ZB5 B6 B7 B8 B9 B10 B11(2)tCSD10®ADS7816DOUT1.4VTest Point3kΩ100pFCLOADtrDOUTVOHVOLtftdDOthDODOUTDCLOCKVOHVOLVILDOUTtdisWaveform 2, tentdisWaveform 1100pFCLOAD3kΩtdisCS/SHDNDOUTWaveform 1(1)DOUTWaveform 2(2)90%10%VIH1B112tenCS/SHDNDCLOCKDVOLOUTVCCLoad Circuit for tdDO, tr, and tfV oltage Waveforms for DOUT Rise and Fall TImes tr, and tfV oltage Waveforms for DOUT Delay Times, tdDO Load Circuit for tdisV oltage Waveforms for tenFIGURE 2. Timing Diagrams and Test Circuits for the Parameters in Table I.V oltage Waveforms for tdisDESCRIPTION ANALOG V ALUEFull Scale Range VREFLeast Significant VREF/4096Bit (LSB)Full Scale VREF –1 LSB 1111 1111 1111 FFFMidscale VREF/2 1000 0000 0000 800Midscale – 1 LSB VREF/2 – 1 LSB 0111 1111 1111 7FFZero 0V 0000 0000 0000 000Table II. Ideal Input V oltages and Output Codes.DIGITAL OUTPUT:STRAIGHT BINARYBINARY CODE HEX CODENOTES: (1) Waveform 1 is for an output with internal conditions such thatthe output is HIGH unless disabled by the output control. (2) Waveform 2is for an output with internal conditions such that the output is LOW unlessdisabled by the output control.DA TA FORMA TThe output data from the ADS7816 is in Straight Binaryformat as shown in Table II. This table represents the idealoutput code for the given input voltage and does not includethe effects of offset, gain error, or noise.POWER DISSIPATIONThe architecture of the converter, the semiconductor fabrication process, and a careful design allow the ADS7816 toconvert at up to a 200kHz rate while requiring very littlepower. Still, for the absolute lowest power dissipation, thereare several things to keep in mind.The power dissipation of the ADS7816 scales directly withconversion rate. The first step to achieving the lowest powerdissipation is to find the lowest conversion rate that willsatisfy the requirements of the system.In addition, the ADS7816 is in power down mode under twoconditions: when the conversion is complete and wheneverCS is HIGH (see Figure 1). Ideally, each conversion shouldoccur as quickly as possible, preferably, at a 3.2MHz clockrate. This way, the converter spends the longest possibletime in the power down mode. This is very important as the11®ADS7816converter not only uses power on each DCLOCK transition(as is typical for digital CMOS components) but also usessome current for the analog circuitry, such as the comparator. The analog section dissipates power continuously, untilthe power down mode is entered.Figure 3 shows the current consumption of the ADS7816versus sample rate. For this graph, the converter is clockedat 3.2MHz regardless of the sample rate—CS is HIGH forthe remaining sample period. Figure 4 also shows currentconsumption versus sample rate. However, in this case, theDCLOCK period is 1/16th of the sample period—CS isHIGH for one DCLOCK cycle out of every 16.There is an important distinction between the power downmode that is entered after a conversion is complete and thefull power down mode which is enabled when CS is HIGH.While both power down the analog section, the digital sectionis powered down only when CS is HIGH. Thus, if CS is leftLOW at the end of a conversion and the converter is continually clocked, the power consumption will not be as low aswhen CS is HIGH. See Figure 5 for more information.By lowering the reference voltage, the ADS7816 requiresless current to completely charge its internal capacitors onboth the analog input and the reference input. This reductionin power dissipation should be weighed carefully against theresulting increase in noise, offset, and gain error as outlinedin the Reference section. The power dissipation of theADS7816 is reduced roughly 10% when the reference voltage and input range are changed from 5V to 100mV.SHORT CYCLINGAnother way of saving power is to utilize the CS signal toshort cycle the conversion. Because the ADS7816 places thelatest data bit on the DOUTline as it is generated, theconverter can easily be short cycled. This term means thatthe conversion can be terminated at any time. For example,if only 8-bits of the conversion result are needed, then theconversion can be terminated (by pulling CS HIGH) afterthe 8th bit has been clocked out.This technique can be used to lower the power dissipation(or to increase the conversion rate) in those applicationswhere an analog signal is being monitored until some condition becomes true. For example, if the signal is outside apredetermined range, the full 12-bit conversion result may not be needed. If so, the conversion can be terminated after the first n-bits, where n might be as low as 3 or 4. This results in lower power dissipation in both the converter and the rest of the system, as they spend more time in the power down mode.LAYOUTFor optimum performance, care should be taken with the physical layout of the ADS7816 circuitry. This is particularly true if the reference voltage is low and/or the conversion rate is high. At 200kHz conversion rate, the ADS7816 makes a bit decision every 312ns. That is, for each subsequent bit deci- 1000100101Supply Current (µA)1 10 100 1000Sample Rate (kHz)TA= 25°CVCC= VREF= +5VfCLK= 3.2MHzFIGURE 3. Maintaining fCLK at the Highest Possible Rate Allows Supply Current to Drop Directly withSample Rate.1000100101Supply Current (µA)1 10 100 1000Sample Rate (kHz)TA= 25°CVCC= VREF= +5VfCLK= 16 • fSAMPLEFIGURE 4. Scaling fCLK Reduces Supply Current Only Slightly with Sample Rate.FIGURE 5. Shutdown Current is Considerably Lower with CS HIGH than when CS is LOW.605040302010Supply Current (µA)1 10 100 1000Sample Rate (kHz)TA= 25°CVCC= VREF= +5VfCLK= 16 • fSAMPLECS LOW(GND)CS = HIGH (VCC)12®。

HPMLDL系列服务器hpML系列服务器HP ProLiant ML110G7(C8R00A)参数规格差不多参数产品类型工作组级产品类别塔式产品结构4U处理器CPU类型奔腾双核CPU型号奔腾双核G860CPU频率3GHzHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML330 G6(B9D22A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600 CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML350 G6(638180-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sCPU核心四核CPU线程四线程数主板HP ProLiant ML350 G6(600431-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML350 G6(594869-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML310e Gen8(686146-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1220 v2CPU频率 3.1GHz标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MB总线规格DMI 5GT/sHP ProLiant ML310e Gen8(686147-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1240 v2CPU频率 3.4GHz智能加速主3.8GHz频标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MBHP ProLiant ML350e Gen8(C3Q10A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2403CPU频率 1.8GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q08A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2407CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q09A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2420CPU频率 1.9GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3F91A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2430CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(646675-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2609CPU频率 2.4GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(668271-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2620CPU频率2GHz智能加速主2.5GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm。

DESCRIPTIONTyco Electronics’ MULTIGIG RT product is a backplane interconnect family that offers levels of flexibility and customization. This printed circuit based, pinless, interconnect family is comprised of modular components, which can be used in a variety of combina-tions.APPLICATIONS• Military• Aerospace and Defense• Mass data storage• High-end and mid-range servers• Telecommunications equipmentKEY FEATURES• 10 Gbps performance• Differential, Single-ended and Power • Customizable impedance matchedprinted circuit wafer interface• Backplane connector system with“pinless” interface• Superior crosstalk performance• Optimized footprints for signal integrityand ease of board design• Utilizes a 0.56 [.022] diameter via forbackplane connector for lower costboard fabrication• Three levels of signal contact sequencing• Modular connector system• Available for 20.30 [.800] or 25.40 [1.00]card pitch systems• Complete connector family includes…- Power Modules- Guidance Modules- Cable Assemblies plannedTECHNICAL DOCUMENTSProduct Specification: 108-2072Application Specification: 114-13056FOR MORE INFORMATIONTechnical SupportInternet: USA: 1-800-522-6752Canada: 1-905-470-4425UK: 44-1908-574289Japan: 81-44-844-8013MUL TIGIG RT ConnectorProducts for VIT A 46 (VPX)Standard元器件交易网PRODUCT OFFERINGLocation Used On Part Number DescriptionBackplane J03U & 6U1410186-1RT-2, BP, Left End, 8 ColumnsJ13U & 6U1410140-1RT-2, BP, Center, 16 ColumnsJ23U & 6U1410142-1RT-2, BP, Right End, 16 Columns J36U only1410140-1RT-2, BP, Center, 16 ColumnsJ56U only1410140-1RT-2, BP, Center, 16 ColumnsJ6 (or J5 or J4)*6U only1410142-1Rt-2, BP, Right End, 16 ColumnsDaughtercard P03& & 6U1410189-1RT-2, 7 Row, DC, Left End, 8 Column, Mixed S-E, Diff, PowerP13U & 6U1410187-3RT-2, 7 Row, DC, Center, 16 Columns, DiffP36U only1410187-3RT-2, 7 Row, DC, Center, 16 Columns, Diff (or 1410190-3 S-E) P46U only1410187-3RT-2, 7 Row, DC, Center, 16 Columns, Diff (or 1410190-3 S-E) P56U only1410187-3RT-2, 7 Row, DC, Center, 16 Columns, Diff (or 1410190-3 S-E) P66U only1410187-3RT-2, 7 Row, DC, Center, 16 Columns, Diff (or 1410190-3 S-E)Backplane N/A3U & 6U1-1469491-x**Guide Pine, BP, for 9mm wide moduleDaughtercard N/A3U & 6u1-1469492-x**Guide Module, DC, 9mm wideN/A3U & 6U1410946-1Screw, Low Profile with Nylox, for Guide Modules * Connector J5 and J4 will use connector J6 when the physical position of J6 or possibly J6 and J5 and P6 and P5 is either not being used, or a connector other than a MULTIGIG RT connector is in this position, such as a fiber optic connector.**See product drawing for dash number options.Note:All part numbers are RoHS compliant.23DisclaimerWhile T yco Electronics Corporation and its affiliates referenced herein (“Tyco Electronics”) have made every reasonable effort to ensure the accuracy of the information in this catalog, Tyco Electronics does not guarantee that it is error free, nor doesT yco Electronics make any other representation, warranty or guarantee that the information is accurate, correct reliable or current.T yco Electronics reserves the right to make any adjustments to the information contained herein at any time without notice.T yco Electronics expressly disclaims all implied warranties regarding the information contained herein, including, but not limited to, any implied warranties of merchantability or fitness for a particular purpose. T yco Electronics’ only obligations are those in the T yco Electronics Standard T erms and Conditions of Sale, and in no case will T yco Electronics be responsible for any incidental, indirect, or consequential damages arising from the sale, resale, or misuse of its products. Users should independently evaluate the suitability of, and test each product for, their application.9-1773449--CC&CE-PDF-02-08 © 2008 by Tyco Electronics Corporation. All Rights Reserved.MULTIGIG RT, TE logo and TYCO ELECTRONICS are trademarks. Other Products, logos, and company namesmentioned herein may be trademarks of their respective owners.Restriction on the use of Hazardous Substances (RoHS)At T yco Electronics, we’re ready to support your RoHS requirements. We’ve assessed more than 1.5 million end items/components for RoHS compliance, and issued new part numbers where any change was required to eliminate the restricted materials. Part numbers in this catalog are identified as:RoHS Compliant — Part numbers in this catalog are RoHS Compliant, unless marked otherwise. These products comply with European Union Directive 2002/95/EC as amended 1January 2006 that restricts the use of lead, mercury, cadmium,hexavalent chromium, PBB, and PBDE in certain electrical and electronic products sold into the EU as of 1 July 2006.NOTE: For purposes of this Catalog, included within the definition of RoHS Compliant are products that are clearly “Out of Scope” of the RoHS Directive such as hand tools and other non-electrical accessories.NOTE: Information regarding RoHS compliance is provided based on reasonable inquiry of our suppliers and represents our current actual knowledge based on the information provided by our suppliers. This information is subject to change. For latest compliance status, refer to our website referenced at right.Getting the Information You NeedOur comprehensive on-line RoHS Customer Support Center provides a forum to answer your questions and support your RoHS needs. A RoHS FAQ (Frequently Asked Questions) is available with links to more detailed information. Y ou can also submit RoHS questions and receive a response within 24 hours during a normal work week.The Support Center also provides:• Cross-Reference from Non-compliant to Compliant Products• Ability to browse RoHS Compliant Products in our on-line catalog • Downloadable T echnical Data Customer Information Presentation • More detailed information regarding the definitions used above• So whatever your questions when it comes to RoHS, we’ve got the answers at/leadfree。

M59PW06464 Mbit (4Mb x16, Uniform Block)3V Supply LightFlash™ MemoryFEATURES SUMMARY■MASK-ROM PIN-OUT COMPATIBLE Array■SUPPLY VOLTAGE–V CC=2.7 to 3.6V for Read–V PP =11.4 to 12.6V for Program■ACCESS TIME–90ns at V CC =3.0 to 3.6V–100, 110ns at V CC =2.7 to 3.6V■PROGRAMMING TIME–9µs per Word typical–Multiple Word Programming Option(8s typical Chip Program)■SUITABLE FOR ON-BOARDPROGRAMMING■ERASE TIME–41s typical Chip Erase■UNIFORM BLOCKS–32 blocks of 2 Mbits■PROGRAM/ERASE CONTROLLER–Embedded Word Program algorithms■10,000 PROGRAM/ERASE CYCLES perBLOCK■ELECTRONIC SIGNATURE–Manufacturer Code: 0020h–Device Code : 88AAhMarch 20051/24M59PW064TABLE OF CONTENTSFEATURES SUMMARY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Figure 1.Packages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1SUMMARY DESCRIPTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Figure 2.Logic Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Table 1.Signal Names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Figure 3.SO Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Figure 4.TSOP Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Table 2.Block Addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6SIGNAL DESCRIPTIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7Address Inputs (A0-A21). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Data Inputs/Outputs (DQ0-DQ7). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Data Inputs/Outputs (DQ8-DQ15). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Chip Enable (E). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Output Enable (G). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 V CC Supply Voltage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 V PP Program Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 V SS Ground. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7BUS OPERATIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8Bus Read. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Bus Write. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Output Disable. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Standby. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Automatic Standby.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Electronic Signature.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Table 3.Bus Operations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8COMMAND INTERFACE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Read/Reset Command.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Auto Select Command.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Word Program Command. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Multiple Word Program Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Setup Phase.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Program Phase.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Verify Phase.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Exit Phase. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Block Erase Command. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Chip Erase Command. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 Table 4.Standard Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Table 5.Multiple Word Program Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 Table 6.Program, Erase Times and Program, Erase Endurance Cycles. . . . . . . . . . . . . . . . . . .112/24M59PW064 Figure 5.Multiple Word Program Flowchart. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12STATUS REGISTER. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13Data Polling Bit (DQ7). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Toggle Bit (DQ6).. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Error Bit (DQ5). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 V PP Status Bit (DQ4). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Erase Timer Bit (DQ3). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Alternative Toggle Bit (DQ2).. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Multiple Word Program Bit (DQ0) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Status Register Bit DQ1 is reserved.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 Table 7.Status Register Bits. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Figure 6.Data Polling Flowchart. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14 Figure 7.Data Toggle Flowchart. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14MAXIMUM RATING. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 Table 8.Absolute Maximum Ratings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15DC and AC PARAMETERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16Table 9.Operating and AC Measurement Conditions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Figure 8.AC Measurement I/O Waveform . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Figure 9.AC Measurement Load Circuit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Table 10.DC Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Figure 10.Read AC Waveforms. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Table 11.Read AC Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Figure 11.Write AC Waveforms, Chip Enable Controlled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Table 12.Chip Enable Controlled, Write AC Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19PACKAGE MECHANICAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20Figure 12.SO44 - 44 lead Plastic Small Outline, 500 mils body width, Package Outline . . . . . . . .20 Table 13.SO44 - 44 lead Plastic Small Outline, 500 mils body width, Package Mechanical Data.20 Figure 13.TSOP48 - 48 lead Plastic Thin Small Outline, 12x20mm, Package Outline. . . . . . . . . .21 Table 14.TSOP48 - 48 lead Plastic Thin Small Outline, 12x20mm, Package Mechanical Data . .21PART NUMBERING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Table 15.Ordering Information Scheme . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22REVISION HISTORY. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23 Table 16.Document Revision History. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .233/24M59PW0644/24SUMMARY DESCRIPTIONThe M59PW064 is a 64Mbit (4Mbx16), Mask-ROM pin-out compatible, non-volatile LightFlash memory, that can be read, erased and reprogrammed. Read operations can be performed using a single low voltage (2.7 to 3.6V)supply. Program and Erase operations require an additional V PP (11.4 to 12.6V) power supply. On power-up the memory defaults to its Read mode where it can be read in the same way as a ROM or EPROM.The memory is divided into 32 uniform blocks that can be erased independently so it is possible to preserve valid data while old data is erased (see Table 2.,Block Addresses ). Program and Erase commands are written to the Command Interface of the memory. An on-chip Program/Erase Con-troller (P/E.C.) simplifies the process of program-ming or erasing the memory by taking care of all of the special operations that are required to update the memory contents.The M59PW064 features an innovative command,Multiple Word Program, that is used to program large streams of data. It greatly reduces the total programming time when a large number of Words are written to the memory at any one time. Using this command the entire memory can be pro-grammed in 8s, compared to 36s using the stan-dard Word Program.The end of a program or erase operation can be detected and any error conditions identified. The command set required to control the memory is consistent with JEDEC standards.Chip Enable and Output Enable signals control the bus operation of the memory. They allow simple connection to most microprocessors, often without additional logic.The memory is offered in SO44 and TSOP48 (12x 20mm) packages. The memory is supplied with all the bits set to ’1’).Table 1. Signal NamesA0-A21Address Inputs DQ0-DQ15Data Inputs/Outputs EChip Enable G Output Enable V CC Supply Voltage readV PPSupply Voltage program erase V SS GroundNCNot Connected InternallyM59PW0645/24M59PW0646/24Table 2. Block AddressesBlock NumberAddress Range 323E0000h-3FFFFFh 313C0000h-3DFFFFh 303A0000h-3BFFFFh 29380000h-39FFFFh 28360000h-37FFFFh 27340000h-35FFFFh 26320000h-33FFFFh 25300000h-31FFFFh 242E0000h-2FFFFFh 232C0000h-2DFFFFh 222A0000h-2BFFFFh 21280000h-29FFFFh 20260000h-27FFFFh 19240000h-25FFFFh 18220000h-23FFFFh 17200000h-21FFFFh161E0000h-1FFFFFh 151C0000h-1DFFFFh 141A0000h-1BFFFFh 13180000h-19FFFFh 12160000h-17FFFFh 11140000h-15FFFFh 10120000h-13FFFFh 9100000h-11FFFFh 80E0000h-0FFFFFh 70C0000h-0DFFFFh 60A0000h-0BFFFFh 5080000h-09FFFFh 4060000h-07FFFFh 3040000h-05FFFFh 2020000h-03FFFFh 1000000h-01FFFFhBlock NumberAddress RangeM59PW064 SIGNAL DESCRIPTIONSSee Figure 2.,Logic Diagram, and Table 1.,Signal Names, for a brief overview of the sig-nals connected to this device.Address Inputs (A0-A21).The Address Inputs select the cells in the memory array to access dur-ing Bus Read operations. During Bus Write opera-tions they control the commands sent to the Command Interface of the Program Controller. Data Inputs/Outputs (DQ0-DQ7).The Data In-puts/Outputs output the data stored at the selected address during a Bus Read operation. During Bus Write operations they represent the command sent to the Command Interface of the Program Controller. When reading the Status Register they report the status of the ongoing algorithm.Data Inputs/Outputs (DQ8-DQ15).The Data In-puts/Outputs output the data stored at the selected address during a Bus Read operation. During Bus Write operations the Command Register does not use these bits. When reading the Status Register these bits should be ignored.Chip Enable (E).The Chip Enable, E, activates the memory, allowing Bus Read operations to be performed. It also controls the Bus Write opera-tions, when V PP is in the V HH range.Output Enable (G).The Output Enable, G, con-trols the Bus Read operations of the memory. It also allows Bus Write operations, when V PP is in the V HH range.V CC Supply Voltage.The V CC Supply Voltage supplies the power for Read operations.A 0.1µF capacitor should be connected between the V CC Supply Voltage pin and the V SS Ground pin to decouple the current surges from the power supply. The PCB track widths must be sufficient to carry the currents required during program opera-tions, I CC3.V PP Program Supply Voltage.V PP is both a power supply and Write Protect pin. The two func-tions are selected by the voltage range applied to the pin.When the V PP is in the V HH range (see Table 10.,DC Characteristics, for the relevant values) the Program/Erase operation is enabled. During such operations the V PP must be stable in the V HH range.If the V PP is kept under the V HH range, particularly in the voltage range 0V to 3.6V, any Program/ Erase operation is disabled or stopped.Note that V PP must not be left floating or uncon-nected as the device may become unreliable.V SS Ground.The V SS Ground is the reference for all voltage measurements.7/24M59PW0648/24BUS OPERATIONSThere are six standard bus operations that control the device. These are Bus Read, Bus Write, Out-put Disable, Standby, Automatic Standby and Electronic Signature. See Table 3.,Bus Opera-tions , for a summary. Typically glitches of less than 5ns on Chip Enable or Write Enable are ig-nored by the memory and do not affect bus opera-tions.Bus Read.Bus Read operations read from the memory cells, or specific registers in the Com-mand Interface. A valid Bus Read operation in-volves setting the desired address on the Address Inputs and applying a Low signal, V IL , to Chip En-able and Output Enable. The Data Inputs/Outputs will output the value, see Figure 10.,Read AC Waveforms , and Table 11.,Read AC Characteris-tics , for details of when the output becomes valid.Bus Write.Bus Write operations write to the Command Interface. Bus Write is enabled only when V PP is set to V HH . A valid Bus Write opera-tion begins by setting the desired address on the Address Inputs. The Address Inputs are latched by the Command Interface on the falling edge of Chip Enable. The Data Inputs/Outputs are latched by the Command Interface on the rising edge of Chip Enable. Output Enable must remain High, V IH ,during the whole Bus Write operation. See Figure 11.,Write AC Waveforms, Chip Enable Con-trolled , and Table 12.,Chip Enable Controlled,Write AC Characteristics , for details of the timing requirements.Output Disable.The Data Inputs/Outputs are in the high impedance state when Output Enable is High, V IH .Standby.When Chip Enable is High, V IH , the memory enters Standby mode and the Data In-puts/Outputs pins are placed in the high-imped-ance state. To reduce the Supply Current to the Standby Supply Current, I CC2, Chip Enable should be held within V CC ± 0.2V. For the Standby current level see Table 10.,DC Characteristics .During program operation the memory will contin-ue to use the Program Supply Current, I CC3, for Program operation until the operation completes.Automatic Standby.If CMOS levels (V CC ± 0.2V)are used to drive the bus and the bus is inactive for 150ns or more the memory enters Automatic Standby where the internal Supply Current is re-duced to the Standby Supply Current, I CC2. The Data Inputs/Outputs will still output data if a Bus Read operation is in progress.Electronic Signature.The memory has two codes, the manufacturer code and the device code, that can be read to identify the memory.These codes can be read by applying the signals listed in Table 3.,Bus Operations , once the Auto Select Command is executed. To exit Electronic Signature mode, the Read/Reset command must be issued.Table 3. Bus OperationsNote: 1.X = V IL or V IH .2.XX = V IL , V IH or V HH3.When reading Status Register during Program algorithm execution V PP must be kept at V HH .Operation E G V PP Address InputsA0-A21Data Inputs/OutputsDQ15-DQ0Bus Read V IL V IL XX (3)Cell Address Data Output Bus Write V IL V IH V HH Command AddressData Input Output Disable X V IH X X Hi-Z StandbyV IH X X XHi-Z Read Manufacturer CodeV IL V IL V HH A0 = V IL , A1 = V IL , Others V IL or V IH 0020h Read Device CodeV ILV ILV HHA0 = V IH , A1 = V IL , Others V IL or V IH88AAhM59PW064 COMMAND INTERFACEAll Bus Write operations to the memory are inter-preted by the Command Interface. Commands consist of one or more sequential Bus Write oper-ations. Failure to observe a valid sequence of Bus Write operations will result in the memory return-ing to Read mode. The long command sequences are imposed to maximize data security.Refer to Tables 4 and 5, for a summary of the com-mands.Read/Reset Command.The Read/Reset command returns the memory to its Read mode where it behaves like a ROM or EPROM, unless otherwise stated. It also resets the errors in the Status Register. Either one or three Bus Write operations can be used to issue the Read/Reset command.V PP must be set to V HH during the Read/Reset command. If V PP is set to either V IL or V IH the com-mand will be ignored. The command can be is-sued, between Bus Write cycles before the start of a program operation, to return the device to read mode. Once the program operation has started the Read/Reset command is no longer accepted.Auto Select Command.The Auto Select command is used to read the Manufacturer Code and the Device Code. V PP must be set to V HH during the Auto Select com-mand. If V PP is set to either V IL or V IH the com-mand will be ignored. Three consecutive Bus Write operations are required to issue the Auto Se-lect command. Once the Auto Select command is issued the memory remains in Auto Select mode until a Read/Reset command is issued, all other commands are ignored.From the Auto Select mode the Manufacturer Code can be read using a Bus Read operation with A0 = V IL and A1 = V IL. The other address bits may be set to either V IL or V IH.The Device Code can be read using a Bus Read operation with A0 = V IH and A1 = V IL. The other address bits may be set to either V IL or V IH.Word Program Command.The Word Program command can be used to pro-gram a Word to the memory array. V PP must be set to V HH during Word Program. If V PP is set to ei-ther V IL or V IH the command will be ignored, the data will remain unchanged and the device will re-vert to Read/Reset mode. The command requires four Bus Write operations, the final write operation latches the address and data in the internal state machine and starts the P/E.C.During the program operation the memory will ig-nore all commands. It is not possible to issue any command to abort or pause the operation. Typicalprogram times are given in Table 6.. Bus Read op-erations during the program operation will output the Status Register on the Data Inputs/Outputs. See the section on the Status Register for more details.After the program operation has completed thememory will return to the Read mode, unless an error has occurred. When an error occurs the memory will continue to output the Status Regis-ter. A Read/Reset command must be issued to re-set the error condition and return to Read mode. Note that the Program command cannot change a bit set at ’0’ back to ’1’.Multiple Word Program CommandThe Multiple Word Program command can be used to program large streams of data. It greatly reduces the total programming time when a large number of Words are written in the memory at once. V PP must be set to V HH during Multiple Word Program. If V PP is set either V IL or V IH the com-mand will be ignored, the data will remain un-changed and the device will revert to Read mode. It has four phases: the Setup Phase to initiate the command, the Program Phase to program the data to the memory, the Verify Phase to check that the data has been correctly programmed and re-program if necessary and the Exit Phase.Setup Phase.The Multiple Word Program com-mand requires three Bus Write operations to ini-tiate the command (refer to Table 4, Multiple Word Program Command and Figure 8, Multiple Word Program Flowchart).The Status Register must be read in order to check that the P/E.C. has started (see Table 7. and Figure 6.).Program Phase.The Program Phase requires n+1 Bus Write operations, where n is the number of Words, to execute the programming phase (re-fer to Table 5.,Multiple Word Program Command, and Figure 5.,Multiple Word Program Flowchart). Before any Bus Write operation of the Program Phase, the Status Register must be read in order to check that the P/E.C. is ready to accept the op-eration (see Table 7. and Figure 6.).The Program Phase is executed in three different sub-phases:1.The first Bus Write operation of the ProgramPhase (the 4th of the command) latches the9/24M59PW06410/24Start Address and the first Word to be programmed.2.Each subsequent Bus Write operation latchesthe next Word to be programmed and automatically increments the internal Address Bus. It is not necessary to provide the address of the location to be programmed but only a Continue Address, CA (A17 to A21 equal to the Start Address), that indicates to the PC that the Program Phase has to continue. A0 to A16 are ‘don’t care’.3.Finally, after all Words have beenprogrammed, a Bus Write operation (the (n+1)th ) with a Final Address, FA (A17 or a higher address pin different from the Start Address), ends the Program Phase.The memory is now set to enter the Verify Phase.Verify Phase.The Verify Phase is similar to the Program Phase in that all Words must be resent to the memory for them to be checked against the programmed data.Before any Bus Write Operation of the Verify Phase, the Status Register must be read in order to check that the P/E.C. is ready for the next oper-ation or if the reprogram of the location has failed (see Table 7. and Figure 6.).Three successive steps are required to execute the Verify Phase of the command:1.The first Bus Write operation of the VerifyPhase latches the Start Address and the Word to be verified.2.Each subsequent Bus Write operation latchesthe next Word to be verified and automatically increments the internal Address Bus. As in the Program Phase, it is not necessary to provide the address of the location to be programmed but only a Continue Address, CA (A17 to A21equal to the Start Address).3.Finally, after all Words have been verified, aBus Write cycle with a Final Address, FA (A17or a higher address pin different from the Start Address) ends the Verify Phase.Exit Phase.After the Verify Phase ends, the Sta-tus Register must be read to check if the command has successfully completed or not (see Table 7.and Figure 6.).If the Verify Phase accomplishes successfully, the memory returns to the Read mode and DQ6 stops toggling.On the contrary, if the P/E.C. fails to reprogram a given location, the Verify Phase terminates, DQ6continues toggling and error bit DQ5 is set in the Status Register. If the error is due to a V PP failure DQ4 is also set.When the operation fails a Read/Reset command must be issued to return the device to Read mode.During the Multiple Word Program operation the memory will ignore all commands. It is not possible to issue any command to abort or pause the oper-ation. Typical program times are given in Table 6..Bus Read operations during the program opera-tion will output the Status Register on the Data In-puts/Outputs. See the section on the Status Register for more details.Note that the Multiple Word Program command cannot change a bit set at ’0’ back to ’1’.Block Erase Command.The Block Erase command can be used to erase a block. It sets all of the bits in the block to ’1’. All previous data in the block is lost.V PP must be set to V HH during Block Erase. If V PP is set to either V IL or V IH the command will be ig-nored, the data will remain unchanged and the de-vice will revert to Read/Reset mode.Six Bus Write operations are required to select the block . The Block Erase operation starts the P/E.C.after the last Bus Write operation. The Status Reg-ister can be read after the sixth Bus Write opera-tion. See the Status Register for details on how to identify if the P/E.C. has started the Block Erase operation.During the Block Erase operation the memory will ignore all commands. Typical block erase times are given in Table 6.. All Bus Read operations dur-ing the Block Erase operation will output the Sta-tus Register on the Data Inputs/Outputs. See the section on the Status Register for more details.After the Block Erase operation has completed the memory will return to the Read Mode, unless an error has occurred. When an error occurs the memory will continue to output the Status Regis-ter. A Read/Reset command must be issued to re-set the error condition and return to Read mode.Chip Erase Command.The Chip Erase command can be used to erase the entire memory. It sets all of the bits in the mem-ory to ’1’. All previous data in the memory is lost.V PP must be set to V HH during Chip Erase. If V PP is set to either V IL or V IH the command will be ig-nored, the data will remain unchanged and the de-vice will revert to Read/Reset mode. Six Bus Write operations are required to issue the Chip Erase Command and start the P/E.C.During the erase operation the memory will ignore all commands. It is not possible to issue any com-mand to abort the operation. Typical chip erase times are given in Table 6.. All Bus Read opera-tions during the Chip Erase operation will output。

Medium voltage productsPowerCube PB6Pre-assembled modules for buildingmedium voltage switchgear2IndexGeneral characteristics1 4.2 7. Main components310. Types available and apparatus4 12.Overall dimensions and weightsCompletion of the switchgear5 18.341. General characteristicsGeneralPowerCube modules allow medium voltage air-insulatedswitchgear to be constructed with the same rated currents as those of the enclosure.PowerCube modules are pre-assembled and tested in the factory and comply with IEC 62271-100, CEI 17-1, IEC 60298 and CEI 17-6 Standards.They are available with the following characteristics:Rated voltage [kV]36 Rated current[A]... 2500 (*)Rated short-time main circuit withstand current[kA]... 25 x 3s ... 31.5 x 1s(*) 2500 A with forced ventilation.VD4 series circuit-breaker and HD4 series gas circuit-breakers can be installed in the PowerCube PB6 modules.All the operations are carried out from the front of the module.Degrees of protectionThe degrees of protection of PowerCube modules comply with IEC 60529 Standards.The following standard degrees of protection are guaranteed on the front:external housing IP4X inside the unitsIP2XInterlocksThe PowerCube module is fitted with interlocks to prevent incorrect operations which might endanger the personnel in charge of running the installation, as well as the efficiency and reliability of the apparatus.In particular, locking devices to prevent the following operations are provided:– circuit-breaker closing in the intermediate position – racking-out of closed circuit-breaker – racking-in of closed circuit-breaker– circuit-breaker compartment door opening in the connected or intermediate position– circuit-breaker racking-in with compartment door open.And, if the unit is fitted with an earthing switch:– earthing switch closing with the circuit-breaker in the connected or intermediate position– racking-in the circuit-breaker with the earthing switch closed– feeder compartment door opening with the earthing switch open– earthing switch opening with the feeder compartment door open.Note : some of the interlocks listed above are supplied on request.Environmental conditionsThe switchgear ratings are guaranteed under the following ambient conditions:Minimum ambient temperature – 5 °C Maximum ambient temperature + 40 °C Maximum relative humidity 95%Maximum altitude1000 m a.s.l.In an unpolluted and not corrosive atmosphere.512A Circuit-breaker compartment1 Voltage signalling device (on request)2 Circuit-breaker/truck/VT truck3 Metal shutters4 Lower and upper monoblocs5 Earthing switch (on request)6 Door7 Fans (only for 2500 A)8 Lower door6Test laboratoryComplies with ISO 45001 Standards, accredited by an independent external organisation.Health and Safety Management SystemThis complies with the OHSAS 18001 Standards, certified by an independent external organisation.Quality SystemComplies with ISO 9001 Standards, certified by an independent external organisation.Environmental Management SystemComplies with ISO 14001 Standards, certified by an independent external organisation.1. General characteristicsPowerCube Module Without earthing switch With earthing switch PB6PR6PB6PR6Module width [mm]1000100010001000Rated voltage[kV]36363636Test voltage at industrial frequency [kV]70707070Impulse withstand voltage [kV]170170170170Short-time withstand current [kA]25 (3s)25 (3s)25 (3s)25 (3s)[kA]31.5 (1s)31.5 (1s)31.5 (1s)31.5 (1s)Peak current[kA]63636363[kA]79797979Rated currents[A]630630630630[A]1250125012501250[A]1600160016001600[A]2000200020002000[A]2500 (*)2500 (*)2500 (*)2500 (*)Earthing switch making capacity[kA]--2525(*) Forced ventilationElectrical characteristics of PowerCube modules7Circuit-breakersPowerCube modules can be fitted with VD4 serieswithdrawable circuit-breakers or HD4 series SF6 withdrawable circuit-breakers.The circuit-breakers are fitted with a truck which allows them to be racked-in and out in the switchboard with the door closed.A compact and light structure ensures sturdiness and excellent mechanical reliability.The operating mechanism and poles are fixed to the metal structure which also acts as a support for the moving contact actuation kinematics.Series VD4 vacuum circuit-breakersVD4 circuit-breakers use the vacuum as breaking and insulating medium.Thanks to the advanced manufacturing techniques withwhich they are made, vacuum circuit-breakers provide a high performance in all operating conditions.The vacuum interrupters are embedded in poles made of epoxy resin. This construction protects the interrupters from shock, humidity and environmental pollution.The circuit-breaker poles, which form the interrupting part, are life-long sealed pressure devices (Standards IEC 62271-100 and CEI 17.1-1) and are maintenance-free.VD4 circuit-breakers feature a mechanical type of operating device; both operating mechanisms are the trip-free stored energy type with independent opening and closing regardless of the operator’s action.HD4 series SF6 gas circuit-breakerVD4/W 36 kV HD4 series SF6 circuit-breakersThe HD4 series of medium voltage circuit-breakers use sulphur hexafluoride gas (SF6) to extinguish the electric arc and as insulating medium. The breaking principle of HD4 circuit-breakers is based on compression and self-blast techniques to obtain top performance at all service current values, with gradual arc extinction, without any restriking, operating overvoltages and chopped currents. These characteristics guarantee long electrical life for the circuit-breaker and limited dynamic, dielectric and thermal stress on the installation. The circuit-breaker poles, which make up the interruption part, are sealed for life pressure systems (IEC 62271-100 and CEI 17.1 Standards) and are maintenance-free. The stored energy mechanical operating mechanism has free release and allows opening and closing operations independent of the operator.8Earthing switchesThe PowerCube PB6 module can be fitted with an earthing switch.The earthing switch features making capacity on short-circuit. The opening and closing operations can be locked, on request, by means of key locks.Earthing switch operation is carried out from the front of the module with manual operation suitably interlocked with the position of the circuit-breaker.Consult the table on page 11 for the list of accessories”.Earthing switch open.Earthing switch closed.Signalling of the earthing switch position.Signals (open/closed) showing the position of the earthing switch are visible from thefront of the enclosure (if forced ventilation is not provided) or from the operating slot of the earthing switch.Monoblocs and shuttersThe monoblocs consist of insulating branches (fig. A) orterminals (fig. B) containing the power connections - top and bottom - of the circuit-breaker compartment, towards the feeder and busbar compartments respectively.The shutters (fig. C) are the metal type and are activatedautomatically when the circuit-breaker changes from the test/isolated position to the connected position and viceversa.Each shutter can be locked by means of two independent padlocks (optional).Figure A9VT CompartmentPowerCube PR6 module can be configured as VT compartment with withdrawable voltage transformers.The voltage transformers are the dedicated type and are protected by fuses. The fuses can be replaced with theswitchgear in service as the fuse compartment is segregated metallically from the other compartments.Consult the table on page 11 for the list of accessories.Figure B Figure C1023Notes for using PowerCube modules– Use of PowerCube PB6 modules is recommended for constructing incoming, outgoing and bus-tie type switchgear units (see table on following pages.– Use of PowerCube PR6 modules is recommended for constructing bus-riser, measurement and direct busbar incoming switchgear units.1. Monoblocs2. Branches/terminals.3. Fans. Pre-installed in 2500 A PB6 modules.Example of PB6 PowerCube module (front and rear views).Example of PR6 PowerCube modules (front view).3. Types available and apparatusVD4 withdrawable circuit-breakers for PowerCube modules(1) Operation sequence: O - 0.3”-CO-3’-CO.(2) 2500 A with forced ventilation inside PowerCube PB6.(3) Please ask ABB.AccessoriesThe table below indicates the accessories available and the relative combination with the PowerCube modules.PowerCube module PB6PR6 Width [mm]10001000 Rated voltage36 kV••Unit Incoming/outgoing/bus-tie•-Bus-riser/measurements/incoming/direct-•Standard fittings 1a Group of auxiliary contacts connected/isolated•-1b Anti-racking-in lock for circuit-breakers with lower rated currentof the compartment•-Accessories to be specified at the time of ordering (assembly by ABB)2Circuit-breaker anti-racking-in lock•-3VT compartment-•4Earthing switch••5Key locks open or closed or open and closed for earthing switch••6Electrom. lock for earthing switch(24-48-60-110-220 Vdc; 110-220 Vac 50 Hz)••7Earthing switch auxiliary contacts (5 or 10)••8Lower door with handle (only if earthing switch is requested)••Accessories on request (assembly by the customer)9Anti-condensation heater (110-220 Vac 50 Hz)•• (VT truck) only 10Mechanical interlock for circuit-breaker compartment door •• (VT truck) only 11Padlock for metal shutters (top or bottom or top and bottom)•• (VT truck) only 12Earthing switch operating lever - extra in relation to normal supply (*)••13Lifting eyebolts••14Apparatus transport and racking/in truck•• (VT truck) only(*) Remember that the standard supply provides up to 10 levers per order position with a maximum of 1 lever per enclosure (fitted with earthing switch).3. Types available and apparatusPB6 PowerCube module - 630-1250 A - with branchesIndicative weight of the module (without earthing switch) Rated current [A] Weight [kg]630 - 1250400PB6 PowerCube module - 630-1250 A - with terminalsRated current [A] Weight [kg]630 - 1250350PB6 PowerCube module - 1600 - 2500 A - with branchesIndicative weight of the module (without earthing switch) Rated current [A] Weight [kg]630 - 12504502500 5004. Overall dimensions and weights PB6 PowerCube module - 1600 - 2500 A - with terminalsIndicative weight of the module (without earthing switch)Rated current [A] Weight [kg]1600 - 2000 4002500 450PR6 PowerCube module - with branchesIndicative weight of the module (without earthing switch) Rated current [A] Weight [kg]630 - 1250up to 4001600 - 2000 up to 4002500 up to 4004. Overall dimensions and weights PR6 PowerCube module - with terminalsIndicative weight of the module (without earthing switch)Rated current [A] Weight [kg]630 - 1250up to 3501600 - 2000 up to 3502500 up to 350To complete the switchgear, ABB can also offer the components indicated below.For further details, please consult us.Voltage transformersThe voltage transformers are the type insulated in resin andare used to supply measuring and protection devices.The are available for fixed assembly or for installation onwithdrawable trucks.They comply with the IEC 60044-2 Standards.Their dimensions usually conform to the DIN 42600 Standard.The transformers installed on withdrawable trucks are, on theother hand, of the dedicated type.These transformers can have one or two poles, withperformance and precision classes suited to the functionalrequirements of the instruments connected to them.When they are installed on withdrawable trucks, they arefitted with medium voltage protection fuses. The fuses can bereplaced with the switchgear in service.Current transformersThe current transformers are the type insulated in resin andare used to supply measuring and protection devices. Thesetransformers can either have a wound core or a through barwith one or more cores, with performance and precisionclasses suited to the installation requirements.They comply with IEC 60044-1 Standards.Their dimensions usually conform to the DIN 42600 standard.The current transformers can also be fitted with a capacitivesocket for connection to the voltage signalling lamps.REF542plus electronic unitThe REF542plus unit integrates all the secondary functions of a switchgear unit in a single module with watchdog. Thanks to flexible software, the unit can meet a vast range of installation requirements: protection measurement, control and signalling. The user interface is simple and easy to use.REF542plus in a kit for OEMThe integrated protection and control unit is based on the REF542plus platform - multi-purpose unit for medium voltage switchgear.The REF542plus unit uses the latest microelectronic and information technology discoveries.The REF542plus unit provides the following main functions: • protection• control• measurement• monitoring• quality of the energy• communication.Thanks to the exceptional flexibility and scalability of this advanced unit, all the functions are integrated in a single configurable environment.This unit therefore makes targeted and intelligent solutions possible, with limited wiring requirements, in those places where the traditional approach would be costly and inefficient.Industrial ITThis product has been tested and certified as conforming to Industrial IT, Level 0 - Information. All the information about the product is provided in an interactive electronic format, compatible with ABB Aspect Object TM technology.ABB’s commitment to respecting Industrial IT conformity guarantees that each construction unit is provided with all the instruments needed to ensure efficient installation, function and maintenance operations throughout the useful life of the product.For further information about Industrial IT please visit the following site: </industrialit>.Some of the solutions already configured for protection and control of most of the common medium voltage applications are defined here.These solutions are based on the REF542plus unit and do not require any programming.The REF542plus unit is supplied already programmed and ready for installation.Only the protection parameter setting remains to be carried out.The REF542plus unit, already configured, can only be ordered as part of the medium voltage kit.It cannot be sold separately.21Configuration of the primary part is structured as shown in the single-line diagram below.The circuit-breaker can be fixed or withdrawable. The earthing switch is manual. Configurations with a contactor in place of the circuit-breaker are also provided foroutgoing motor feeders.The ATEX certified version, in accordance with directive 94/9/EC for explosive environments, is also available. Please contact ABB.NoteSpecific and customised solutions and protection diagrams are possible. Please contact ABB.Technical reference documentationThe pre-configured REF542plus unit described in thiscatalogue is based on release 1.1 (V4C01 software version).For further information about the REF542plus unit, please ask for the following documentation:• REF542plus Technical Catalogue, 1VTA100001en-H PTMV, 11.2003• REF542plus Manual Part 1: Operation and Maintenance, 1VTA100002en-04 PTMV, 10.02.02.• REF542plus Manual Part 2: Engineering & Technical References, 1VTA100003en-04 PTMV, 10.02.02.• REF542plus Manual Part 3: Installation and Commissioning, 1VTA100004en-04 PTMV, 10.02.02.• REF542plus Manual Part 4: Communication to station control system, 1VTA100005en-01 PTMV, 10.02.02.• REF542plus Technical References Modbus RTU, 1VTA100065-2 PTMV, 10.02.02.• REF542plus Release 1.1 Type Test Certificate 1VTA100022 PTMV, 31.01.02.• REF542plus Connection Diagram 401734, Rev. M3565 7/6/01 ABB.• REF542plus EC Conformity, 1VTA100159 PTMV, 28.08.02.• EC-Type-Examination Certificate (PTB 02 ATEX 3000) PTB September 2002.Single-line diagram of the primary part.Notes 2223ABB S.p.A.Power Products Division Unità Operativa Sace-MV Via Friuli, 4I-24044 DalmineTel.: +39 035 6952 111Fax: +39 035 6952 874E-mail:**************.comThe data and illustrations are not binding. We reserve the right to make changes without notice in the course of technical development of the product.© Copyright 2013 ABB. All rights reserved.Contact us1V C D 000178 - R e v . F , e n - T e c h n i c a l C a t a l o g u e - 2013.01 (P o w e r C u b e P B 6) (g s )。

P6SEP-Me主板手册V 1.0中国长城计算机深圳股份有限公司P/N:001-140400-94公告锂电池注意事项注意：错误更换电池，有引起爆炸的危险。

更换电池时，只能使用同类型电池。

电池含有锂，如使用、处理或处置不当，可能爆炸。

切勿将电池：沾水或浸入水中置于100℃以上高温（212℉）修理或拆开务必根据当地法令或法规要求处置旧电池。

激光产品证书声明如果您的个人计算机出厂时安装了CD-ROM驱动器，您的个人计算机系统就是激光产品。

CD-ROM驱动器符合GB7247对一类激光产品的要求。

一类激光产品不属于危险产品。

无线电干扰注意事项本设备经过测试发现符合GB9254关于无线电干扰的A或B级（见包装箱）的要求：这个设备能产生、利用和幅射射频能量，如果不按指令进行安装，会对无线电通讯造成干扰。

但是并不能保证在一个特定的安装中不造成干扰。

如果本设备对无线电和电视接收造成干扰（可以通过打开和关闭本设备来测试），建议使用者通过下列操作来解决：. 调整接收天线方向或位置增加本设备与接收器之间的距离将本设备与接收器插在不同的插座中向长城代理商或服务代表请求咨询和帮助必须使用合适的屏蔽和接地电线以及连接器以满足发射限制。

如果本设备是符合GB9254关于无线电干扰的A级要求的，请注意以下声明：电源线为了安全起见，随长城产品均提供经认证的有接地插头的电源线。

为了防止触电及系统稳定，请将电源线插头插在良好接地的插座中。

版权公告MS DOS6.22、Windows、Windows NT是微软公司的注册商标。

注意：1. 由于微机技术发展很快，本手册内容可能与您的主板稍有差别，望您能谅解。

2. 本手册可能存在的错误或疏漏，如有更新，恕不另行通知。

目录第一章介绍 (1)1.1关于说明书 (1)1.1.1主板特点 (1)1.1.2设置 (1)1.1.3软件 (1)1.2主板特点 (1)1.2.1低价格/高性能的解决方案 (1)1.2.2高性能的内存 (1)1.2.3高度集成化的设计 (2)1.2.4内置AGP 3D图形加速卡 (2)1.2.5内置PCI 3D音效 (2)1.2.6可选的内置通讯 (3)1.2.7扩展选项 (3)1.2.8集成的I/O端口 (3)1.2.9键盘开机 (3)1.2.10可编程固件 (3)1.3主板指南 (3)1.3.1元件说明 (4)1.3.2 I/O端口布局 (5)1.3.3 I/O端口说明 (5)1.4跳线设定 (6)第二章设置 (9)2.1关于设置程序 (9)2.1.1 进入设置程序 (9)2.1.2 使用设置程序 (9)2.2S TANDARD CMOS S ETUP选项 (11)2.3BIOS F EATURES S ETUP O PTION选项 (12)2.4C HIPSET F EATURES O PTION选项 (16)2.5P OWER M ANAGEMENT S ETUP O PTION选项 (19)2.6PNP/PCI C ONFIGURATION O PTION选项 (24)2.7L OAD BIOS D EFAULTS O PTION选项 (25)2.8L OAD O PTIMUM S ETTINGS O PTION选项 (26)2.9I NTEGRATED P ERIPHERALS O PTION选项 (26)2.10P ASSWORD S ITTINGS选项 (29)2.11IDE HDD A UTO D ETECTION O PTION选项 (30)2.12S AVE A ND E XIT S ETUP O PTION选项 (30)2.13E XIT W ITHOUT S AVING O PTION选项 (30)第三章音频系统介绍 (30)3.1主要功能 (31)3.2数字音频（SPDIF IN/OUT） (31)3.3立体声混音器 (32)3.4G AME以及M IDI接口 (32)3.5驱动程序及软件安装 (32)3.5.1DOS下软件的安装 (32)3.5.2W IN 95/98下软件的安装 (32)3.5.3W INDOWS NT4.0下软件的安装 (32)3.5.5W IN 2000下软件的安装 (33)3.6 WINDOWS应用程序 (33)3.6.1 Audio Rack (组合音响) (33)3.6.2 Control Center （控制中心） (34)3.6.3 CD Player （CD播放机） (35)3.6.4 MIDI Player（MIDI播放机） (37)3.6.5 MP3/Wave Player（MP3/Wave播放机） (40)3.6.6 Mixer（混音器） (45)第四章显示系统介绍 (48)第四章其它软件 (50)4.1关于软件 (50)4.2本主板的目录 (50)4.3目录安装注意事项 (50)附录一：如何刷新BIOS (53)第一章介绍1.1 关于说明书这本说明书由以下章节组成。

1.Product profile1.1General descriptionPNP low V CEsat Breakthrough In Small Signal (BISS) transistor and NPN Resistor-Equipped T ransistor (RET) in a SOT457 (SC-74) small Surface-Mounted Device (SMD)plastic package.1.2FeaturesI Low V CEsat (BISS) and resistor-equipped transistor in one package I Low threshold voltage (<1V) compared to MOSFET I Low drive power required I Space-saving solutionIReduction of component count1.3ApplicationsI Supply line switches I Battery charger switchesI High-side switches for LEDs, drivers and backlights IPortable equipment1.4Quick reference data[1]Device mounted on a ceramic Printed-Circuit Board (PCB), Al 2O 3, standard footprint.[2]Pulse test: t p ≤300µs;δ≤0.02.PBLS4004D40 V PNP BISS loadswitchRev. 03 — 6 January 2009Product data sheetTable 1.Quick reference data Symbol ParameterConditions Min Typ Max Unit TR1; PNP low V CEsat transistorV CEO collector-emitter voltage open base--−40V I C collector current[1]--−1A R CEsatcollector-emitter saturation resistanceI C =−500mA;I B =−50mA [2]-240340m ΩTR2; NPN resistor-equipped transistor V CEO collector-emitter voltage open base --50V I O output current --100mA R1bias resistor 1 (input)15.42228.6k ΩR2/R1bias resistor ratio0.811.22.Pinning information3.Ordering information4.Marking5.Limiting valuesTable 2.Pinning Pin Description Simplified outlineGraphic symbol1emitter TR12base TR13output (collector) TR24GND (emitter) TR25input (base) TR26collector TR1132456654123R2TR1TR2R1sym036Table 3.Ordering informationType numberPackage NameDescriptionVersion PBLS4004DSC-74plastic surface-mounted package (TSOP6); 6leadsSOT457Table 4.Marking codesType number Marking code PBLS4004DR4Table 5.Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).Symbol ParameterConditions Min Max Unit TR1; PNP low V CEsat transistorV CBO collector-base voltage open emitter -−40V V CEO collector-emitter voltage open base -−40V V EBO emitter-base voltage open collector-−5V I Ccollector current[1]-−0.7A [2]-−0.85A [3]-−1A I CM peak collector current single pulse; t p ≤1ms -−2A I B base current -−0.3A I BMpeak base currentsingle pulse; t p ≤1ms-−1ATable 5.Limiting values …continuedIn accordance with the Absolute Maximum Rating System (IEC 60134).Symbol Parameter Conditions Min Max Unit P tot total power dissipation T amb≤25°C [1]-250mW[2]-350mW[3]-400mW TR2; NPN resistor-equipped transistorV CBO collector-base voltage open emitter-50VV CEO collector-emitter voltage open base-50VV EBO emitter-base voltage open collector-10VV I input voltagepositive-+40Vnegative-−10VI O output current-100mA I CM peak collector current single pulse; t p≤1ms-100mA P tot total power dissipation T amb≤25°C-200mW Per deviceP tot total power dissipation T amb≤25°C[1]-400mW[2]-530mW[3]-600mW T j junction temperature-150°C T amb ambient temperature−65+150°C T stg storage temperature−65+150°C[1]Device mounted on an FR4PCB, single-sided copper, tin-plated and standard footprint.[2]Device mounted on an FR4PCB, single-sided copper, tin-plated, mounting pad for collector 1cm2.[3]Device mounted on a ceramic PCB, Al2O3, standard footprint.6.Thermal characteristics[1]Device mounted on an FR4PCB, single-sided copper, tin-plated and standard footprint.[2]Device mounted on an FR4PCB, single-sided copper, tin-plated, mounting pad for collector 1cm 2.[3]Device mounted on a ceramic PCB, Al 2O 3, standard footprint.(1)Ceramic PCB, Al 2O 3, standard footprint (2)FR4PCB, mounting pad for collector 1cm 2(3)FR4PCB, standard footprintFig 1.Power derating curvesT amb (°C)01601204080006aaa4610.40.20.60.8P tot (W)0(1)(2)(3)Table 6.Thermal characteristics Symbol ParameterConditionsMin Typ Max Unit Per device R th(j-a)thermal resistance from junction to ambientin free air[1]--312K/W [2]--236K/W [3]--210K/W Per TR1; PNP low V CEsat transistor R th(j-sp)thermal resistance from junction to solder point--105K/WFR4PCB, standard footprintFig 2.TR1(PNP):Transient thermal impedance from junction to ambient as a function of pulse duration;typical valuesFR4PCB, mounting pad for collector 1cm 2Fig 3.TR1(PNP):Transient thermal impedance from junction to ambient as a function of pulse duration;typical values006aaa462101102103Z th(j-a)(K/W)10−110−51010−210−410210−1t p (s)10−310310.750.50.330.20.1δ = 10.050.020.01006aaa463101102103Z th(j-a)(K/W)10−51010−210−410210−1t p (s)10−310310.750.50.330.20.1δ = 10.050.020.0107.CharacteristicsCeramic PCB, Al 2O 3, standard footprintFig 4.TR1(PNP):Transient thermal impedance from junction to ambient as a function of pulse duration;typical values006aaa464101102103Z th(j-a)(K/W)10−51010−210−410210−1t p (s)10−310310.750.50.330.20.1δ = 10.050.020.010Table 7.CharacteristicsT amb =25°C unless otherwise specified.Symbol ParameterConditionsMin Typ Max Unit TR1; PNP low V CEsat transistorI CBOcollector-base cut-off current V CB =−40V; I E =0A --−0.1µA V CB =−40V; I E =0A;T j =150°C--−50µA I CES collector-emitter cut-off current V CE =−30V; V BE =0V --−0.1µA I EBO emitter-base cut-off current V EB =−5V; I C =0A --−0.1µAh FEDC current gainV CE =−5V; I C =−1mA 300--V CE =−5V; I C =−100mA [1]300-800V CE =−5V; I C =−500mA [1]215--V CE =−5V; I C =−1A[1]150--V CEsatcollector-emitter saturation voltageI C =−100mA; I B =−1mA -−80−140mV I C =−500mA; I B =−50mA [1]-−120−170mV I C =−1A; I B =−100mA[1]-−220−310mV R CEsat collector-emittersaturation resistance I C =−500mA; I B =−50mA [1]-240340m ΩV BEsat base-emittersaturation voltage I C =−1A; I B =−50mA [1]--−1.1V V BEonbase-emitter turn-on voltageV CE =−5V; I C =−1A[1]--−1Vf T transition frequency I C=−50mA; V CE=−10V;f=100MHz150--MHzC c collector capacitance V CB=−10V; I E=i e=0A;f=1MHz--12pF TR2; NPN resistor-equipped transistorI CBO collector-base cut-offcurrentV CB=50V; I E=0A--100nAI CEO collector-emittercut-off current V CE=30V; I B=0A--1µA V CE=30V; I B=0A;T j=150°C--50µAI EBO emitter-base cut-offcurrentV EB=5V; I C=0A--180µA h FE DC current gain V CE=5V; I C=5mA60--V CEsat collector-emittersaturation voltageI C=10mA; I B=0.5mA--150mV V I(off)off-state input voltage V CE=5V; I C=100µA- 1.10.8V V I(on)on-state input voltage V CE=0.3V; I C=5mA 2.5 1.7-V R1bias resistor1 (input)15.42228.6kΩR2/R1bias resistor ratio0.81 1.2C c collector capacitance V CB=10V; I E=i e=0A;f=1MHz -- 2.5pFTable 7.Characteristics …continuedT amb=25°C unless otherwise specified.Symbol Parameter Conditions Min Typ Max Unit[1]Pulse test: t p≤300µs;δ≤0.02.V CE =−5V (1)T amb =100°C (2)T amb =25°C (3)T amb =−55°CT amb =25°CFig 5.TR1(PNP): DC current gain as a function of collector current; typical valuesFig 6.TR1(PNP): Collector current as a function of collector-emitter voltage; typical valuesV CE =−5V (1)T amb =−55°C (2)T amb =25°C (3)T amb =100°CI C /I B =20(1)T amb =−55°C (2)T amb =25°C (3)T amb =100°CFig 7.TR1(PNP): Base-emitter voltage as a function of collector current; typical valuesFig 8.TR1(PNP): Base-emitter saturation voltage as a function of collector current; typical values006aaa4654008001200h FE0I C (mA)−10−1−104−103−1−102−10(2)(3)(1)006aaa469−0.8−1.6−2.4I C (A)0V CE (V)0−5−4−2−3−1I B (mA) = −24−2.4−4.8−7.2−12−14.4−9.6−16.8−19.2−21.6006aaa467−0.6−0.4−0.8−1.0V BE (V)−0.2I C (mA)−10−1−104−103−1−102−10(3)(1)(2)006aaa468−0.5−0.9−1.3V BEsat (V)−0.1I C (mA)−10−1−104−103−1−102−10(2)(3)(1)I C /I B =20(1)T amb =100°C (2)T amb =25°C (3)T amb =−55°CT amb =25°C (1)I C /I B =100(2)I C /I B =50(3)I C /I B =10Fig 9.TR1(PNP): Collector-emitter saturation voltage as a function of collector current;typical valuesFig 10.TR1(PNP): Collector-emitter saturationvoltage as a function of collector current;typical valuesI C /I B =20(1)T amb =100°C (2)T amb =25°C (3)T amb =−55°CT amb =25°C (1)I C /I B =100(2)I C /I B =50(3)I C /I B =10Fig 11.TR1(PNP): Collector-emitter saturationresistance as a function of collector current;typical values Fig 12.TR1(PNP): Collector-emitter saturationresistance as a function of collector current;typical values006aaa466I C (mA)−10−1−104−103−1−102−10−10−1−1V CEsat (V)−10−2(3)(1)(2)006aaa471I C (mA)−10−1−104−103−1−102−10−10−2−10−1−1−10V CEsat (V)−10−3(3)(2)(1)006aaa470I C (mA)−10−1−104−103−1−102−10110102103R CEsat (Ω)10−1(3)(1)(2)006aaa472I C (mA)−10−1−104−103−1−102−10110102103R CEsat (Ω)10−1(3)(2)(1)V CE =5V (1)T amb =150°C (2)T amb =25°C (3)T amb =−40°CI C /I B =20(1)T amb =100°C (2)T amb =25°C (3)T amb =−40°CFig 13.TR2(NPN): DC current gain as a function ofcollector current; typical valuesFig 14.TR2(NPN): Collector-emitter saturationvoltage as a function of collector current;typical valuesV CE =0.3V (1)T amb =−40°C (2)T amb =25°C (3)T amb =100°CV CE =5V (1)T amb =−40°C (2)T amb =25°C (3)T amb =100°CFig 15.TR2(NPN): On-state input voltage as afunction of collector current; typical values Fig 16.TR2(NPN): Off-state input voltage as afunction of collector current; typical valuesI C (mA)10−1102101006aaa03810210103h FE1(1)(2)(3)006aaa039I C (mA)11021010−1V CEsat (V)10−2(1)(2)(3)006aaa040I C (mA)10−1102101110V I(on)(V)10−1(1)(2)(3)006aaa041I C (mA)10−2101110−1110V I(off)(V)10−1(1)(3)(2)分销商库存信息: NXPPBLS4004D,115。

信泓日佳销售产品目录表信泓日佳模具钢材公司销售模具钢，进口模具钢，高速钢，粉末高速钢，钨钢，铝材，铜材，铝板，铝棒如：日本：PX4 PX5 PDS-3 PDS-5 PAK90 PD555 PD613 SGT S50C SC5C SUS303 SUS304 SUS410 SUS420 SUS630 SCM440 SMC420 SUP9 SK3 SK4 SKD4 SKD5 SKD7 SKD8 SKD11 SKD12 SKD61 SKD62 SKH-9 SKH-51SKH-55 SKH57 SKH59 SKT4 SKS3 SKS41 SLD SLD8 SLD10 SM400A SNC815 SPHD SS41 SS330 SS400 SS490 S-Star GFA GOA GENA1 G-Star DAC DAC10 DAC45 DAC55 DEX20 DEX40 DEX60 DH21 DH31-S DH42 DH62 DHA DH2F DC11 DC53 DM FDAC YEM YEM-K YHD3 YHD27 YHD28 YHD45 YK30 YSS YXR3 YXR33 YXM1 YXM4 YXM42 MH51 MH85 NAK55 NAK80 NP8 NP9 ARK1 H3100 HAP10 HAP40 HAP72 HPM1 HPM2 HPM38 HPM50 HPM57 HPM77 化学成分瑞典：618S 618H 718 718S 718H S136 S136H 8407 8416 STAVAX ASP-23 ASP-30 UHB2311 RAMAX S ALVAR14 ASSAB88 DF3 DF2 ELMAX KM2 HMP41 HOTVAR V4 V10 ORO90 UHB20 UHB4006 UHB4462 UHB5752 UHB5860 UHB5919 UHB8159 UHB709 UHB8550 XW5 XW10 XW41 XW42 Q0R090化学成分奥国：A903 S500 S600 S709 S790 S705 S390PM S590PM S690PM M201 M202 M238 M261 M310 M238ESR W300 M330 M340 M461 W302 W303 W304 W321 W500 K100 K105 K110 K305 K340 K460 K600 K720 K990 VMRM300ESRM310ESR N100 N320 N540 N350 E116 E200 E220 E230 E400 F300 F530 V320 V155 V800 V820 化学成分德国：21NICRMO2 14NICR14 15CRNI6 20CRMO5 18CRNI8 55CR3 50CRV4 42CRMO4 34CRNIMO6 34CRALNI7 40CRNIMOA 638 2711 2316 2316H 2344 2379 2436 2510 2688 2738 1285 1292 2363 2767 2842 3207 1.3343 4125 1.7225 1.0037 1.1210 1.2101 1.1545 1.2080 1.2311 1.2312 1.2343 1.2365 1.2367 1.2550 1.2601 1.2606 1.2714 1.2840 1.2842 1.2885 1.3243 1.3247 1.3343 1.4006 1.4021 1.4034 1.4057 1.4313 1.4462 1.4542 1.4548 1.5752 1.5860 1.5919 1.6582 1.6523 1.7147 1.5920 1.7176 1.7225 1.7220 1.8509 1.8159中国：Cr12 Cr12MoV 6542 W18 W9 3Cr2W8V 15-40CrNiMo 15-42CrMo H13 20CrMnTi 30CrMnTi T8 T8A T10A T12 Y35CA Y12 Y15 Y20 Y30 Y40化学成分美国：P2 P3 P20 H11 H13 H10A F1 F2 F8 L2 L3 L6 M1 M2 M3 M4 M35 M42 M1008 M1020 W110 O1 O2 O6 L2 L3 T1 T15 S1 S7 D2 D3 D6 D7 A2 A3 A6 A8 A10 420 S7 1005 1018 1020 1035 1042 1050 1053 1069 1071 1086 1095 1018 13115 1513 1524 1548 1566 2024 2317 3135 3245 3450 4012 4024 4121 4130 4140 4150 4608 4715 4820 5015 5120 5052 5083 6061 6062 6115 6195 7055 7058 7072 7075 7260 8120 8620 8622 8742 9254 9260 A570.Gr.A K52440钨钢：G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 V30 V40 D30 D40 D50 D60 KE11 SF-05 SF-15 SF-20 SF-30 SF-X K05 K10 K20 YG8 YG9 YG12 YG15 YG20 YG25 YG28 CD650 CD636 CD750 化学成分高速钢：SKH-9 SKH-51 SKH-55 M2 M35 M42 ASP-23 ASP-30 V10 S600 S790铜料：日本三宝红铜银铜铜材紫铜杯士铜铬铜铍铜钨铜合金铜磷青铜锡青铜 C5191 C3604 C3600 C2801 C1100化学成分轧辊钢：9Cr2Mo 9Cr2MoV 718 P20不锈钢：301 302 303 304 310 316 401 410 420 430 440 630 1CR13 2CR13 3CR13 3CR13 4CR13 S31500 S31803 S31220 S36550 321铝板：6061-T651 50527075 8011 8005 8079 6056 6012 5086 2024 1200 1100 5050 1050化学成分易切削结构钢:15S10 1.0710 10S20 1.0721 15S20 15S22 1.0723 35S20 1.0726 45S20 46S20 1.0727 60S20 60S22 1.0728 10SPb20 1.0722 35SPb 1.0756 45SPb20 46SPb20 1.0757 60SPb20 60SPb22 1.0758 9SMn28 11SMn30 1.0736 9SMn36 11SMn37 1.0736 9SMnPb28 11SMnPb30 1.0718 9SMnPb36 11SMnPb37 1.0737 9S20 11SMn28 11SMnPb28 12SMnPb35 12SMn35 10Pb20 10SPb20 17SMn2035S20 35SMn20 44SmN28 46S20 …….冷镦钢和冷挤压钢：Cq15 C15C 1.1132 Cq22 C22C 1.1152 Cq35 C35C 1.1172 Cq45 C45C 1.1192 38Cr1 1.7001 46Cr1 1.7002 38Cr1 1.700 46Cr2 1.7006 15Cr3 1.7015 34Cr4 1.7033 37Cr4 1.7034 41Cr4 1.7035 25CrMo4 1.7218 34CrMo4 1.7220 42CrMo4 1.7225 20MoCr4 1.7321 16MnCr5 1.7131 15CrNi6 1.5919 30CrNiMo8 1.6580 34CrNiMo6 1.6582 20NiCrMo2-21 21NiCrMo2 1.6523 CC4X CC4A CC8S CC8A CC11X CC11A CE10 CE15E4 CE16E4 CE20E4 20CRE4 16MnCr5E 18MnCr4E 18CrMo4E 20NiMo2E CE20E4 CE28E4 CE35E4 CE40E4 CE45E4 42Mn6E 37Cr2E 46Cr2E 34Cr4E 37Cr4e 41Cr4E 41Cr4E 36Mo3E 25CrMo4e 34CrMo4e 42CrMo4e 41CrNiMo2E 41NiCrMo7E31CrNiMo8e CE20BG1 CE20BG2 CE28B CE35B 35MnB5E 37CrBLE …弹簧钢和轴承钢：C67ECK67 1.1231 C75E CK75 1.1248 C85E CK85 1.1269 C10E CK101 1.1274 38Si6 1.5022 38Si7 1.5023 46Si7 1.5024 51Si7 1.5025 55Si7 56Si7 1.5026 65Si7 1.5028 71Si7 1.5029 60SiMn5 1.5142 51MnV7 1.5225 54SiCr6 1.7102 60SiCr7 1.7108 67SiCr5 1.7103 55Cr3 1.7176 51CrC4 50CrV4 1.8159 58CrV4 1.8161 ......刀具用钢：SKS11 SKS2 SKS21 SKS5 SKS7 SKS81 SKS8 ……….耐冲击工具钢：SKS4 SKS41 SKS43 SKS44……….冷作模具钢：SKS3 SKS31 SKS93 SKS94 SKS95 SKD1 SKD2 SKD10 SKD12 SKD11 ……….热作模具钢：SKD4 SKD5 SKD6 SKD61 SKD62 SKD7 SKD8 SKT3 SKT4 SKT6…………）日本JIS标准结构钢牌号：SS330 SS400 SS490 SS540 SCM4400A SM400B SM400C SM490A SM490 SM490C SM490YA SM490YB SM570 CUP-Ten CUP-Ten60 FTW-52 FTW-60 FTW-70 HI-Z HI-Z Super HI-YAW-TEN HTP-52W NK-HITEN50 NK-HITE60 NK-HITEN70 NK-HITEN80 NK-HTEN100 RiverAce60 RiverAce70 RiverAce80 Welten50 Welten60 Welten70 Welten80 Welten80C Welten100N YAW-TEN50 Zirten SMA400AW SMA400BW SMA400CW SMA400AP SMA400BP SMA400CP SMA490AW SMA490BW SMA490CW SMA490AP SMA490BP SMA490CP SWA570W SWA570P SPA-H APA-C SPV315 SPV355 SPV410 SPV410 SPV450 SPV490 SPV235 SG255 SG295 SG325 SG365 SGV410 SGV450 SGV480 SGV42 SGV46 SGV49 SLA235A ALA235B ALA325B ALA325B ALA365 ALA410 SL2N255 SL3N255日本JIS标准机械结构用钢牌号：S10C S12C S15C S17C S20C S22C S25C S28C S30C S33C S35C S38C S40C S43C S45C S48C S50C S53C S58C S09CK S15CK S20CK日本JIS标准淬透性结构用钢牌号：SMn420H SMn433H SMn438H SMn4443H SCr415H SCr420H SCr435H SCr440HSCM415H SCM418H SCM420H SCM435H SCM440H SCM822H SNC415H SNC631H SNC220H SNC420H日本JIS标准易切削钢牌号：SUM11 SUN12 SUM21 SUM22 SUM22L SUM23 SUM23L SUM24L SUM25 SUM31 SUM31L SUM41 SUM42 SUM43 …………日本JIS标准合金钢牌号：SNB5 SNB7 SNB16 SNB21-1-5日本JIS标准轴承钢牌号：SUP3 SUP6 SUP7 SUP9 SUP9A AUP10 AUP11A AUP12 AUP13 SUJ1 SUJ2 SUJ3 SUJ4 SUJ5日本JIS标准不绣钢耐热钢牌号：SUS201 SUS202 SUS301 SUS302 SUS303 SUS303Se SUS303Cu SUS304 SUS304L SUS304N1 SUS304N2 SUS304LN SUS304J3 SUS305 SUS309S SUS309S SUS310S SUS316 SUS316L SUS316NSUS316LN SUS316F SUS317 SUS317L SUS317LN SUS317J1 SUS836L SUS890L SUS321 SUS347 SUSXM7 SUSXM15J1 SUS329J1 SUS329J1 SUS329J1 SUS329J4L SUS405 SUS410L SUS430 SUS430F SUS44J1 SUUSXM27 SUS403 SUS410 SUS410J1 SUS410F2 SUS416 SUS420J1 SUS420J2 SUS420F SUS420F2 SUS431 SUS440A SUS440F SUS630SUS631 SUS304TP SUS304HTP SUS309TP SUS310TP SUS890LTP SUS347HTP SUS304TKA SUS304TKC SUS316TKA SUS316TK SUS321TKA SUSTKC SUS420J1TKA SUS430TKA SUSTKC SUH31 SUH35 SUH36 SUH37 SUH38 SUH309 SUH310 SUH330 SUH660 SUH661 SUH446 SUH1 SUH3 SUH4 SUH11日本JIS标准高温合金钢耐蚀钢牌号：NCF600 NCF601 NCT625 NCF690 NCF718 NCF718 NCF750 NCF751 NCE800 NCF800H NCF825 NCF80A NCF600TP NCF600TB NCF625TP NCF800TP NCF825TP NCF825TB日本JIS标准工具钢牌号：SK140 SK120 SK105 SK95 SK90 SK85 SK80 SK75 SK70 SK65 SK60日本JIS标准高速钢牌号：SKH2 SKH3 SKH4 SKH10 SKH40 SKH50 SKH51 SKH52 SKH53 SKH54 SKH55 SKH56 SKH57 SKH58 SKH59………日本JIS标准特殊钢中空钢牌号：SK3M SK3M SK4M SK5M SK6M SK7M SK2M SK5M SKS51M SKS81MSKS95M SKC3 SKC11 SKC24 SKC25 SKC31日本JIS标准钨钢（硬质合金钢）牌号：切削工具用：P01 P15 P10 P20 P30 P40 M10 M20 M30 M40 K01 K10 K20 K30………拉丝模和顶尖工具用：V10 V20 V30……….矿山的质地工具用：,E1 E2 E4 E5………超微粒硬质合金：Z01 Z10 Z20 Z30 …………A1 A40 CC F0 F1 G2 G3 G5 G8 G10E H1 H2 H3 ST10E ST15E ST20E ST25E ST30E ST40E T12A T3S U1 U10E AC720 AC805 AC835………日本JIS标准结构用铸钢牌号:SC360 SC37 SC410 SC42 SC450 SC46 SC480 SC49 SC360 SC410 SC450 SC480 200-400 200-400W 230-450 230-450W 270-480W 340-550 340-550W SCW410 SCW42 SCW450 SCW46 SCW480 SCW49 SCW63SCC3 SCC5 SCMn1 SCMn2 SCMn3 SCMn5 SCMnCr2…….SCC3A SCC3B……….瑞典SS标准,碳素结构钢:1211 1225 1226 1232 1233 1234 1250 1265 1300 1310 1311 1312 1313 1330 1331 1332 1350 1357 1370 1410 1411 1412 1413 1414 1421 1422 1423 1424 1430 1431 1432 1434 1435 1450 1500 1510 1550 1550 1572 1600 1650 1655 1660 1665 1672 1674 1678合金结构钢:2085 2090 2101 2102 2103 2106 2107 2108 2110 2112 2114 2116 2117 2120 2121 2122 2127 2128 2130 2131 2132 2134 2135 2142 2143 2144 2145 2165 2168 2172 2173 2174 2203 2216 2218 2225 2228 2230 2231 2233 2243 2240 2244 2245 2253 2254 2258 2506 2511 2512 2520 2523 2530 2532 2534 2536 2541 2316 2615 2624 2625 2632 2634 2642 2644 2652 2654 2662 2664 2942 2940……弹簧钢: 1770 1774 1778…….易切削钢: 1912 1214 1922 1926 1940 1957 1973……..不绣钢和耐热钢：2301 2302 2303 2304 2317 2320 2321 2322 2323 2324 2325 2326 2327 2328 2331 2332 2333 2337 2338 2340 2343 2346 2347 2348 2350 2352 2353 2357 2360 2361 2366 2367 2368 2370 2371 2372 2374 7376 2377 2378 2380 2382 2383 2384 2387 2388 2562 2564 2570 2584 2662 2301-02 2301-22 2301-23 2302-02 2302-03 2303-02 2303-03 0303-04 2303-08 2304-02 2304-08 2317-03 2321-02 2321-03 2324-02 2325-02 2326-02 2326-22 2326-23 2326-26 2326-28 2340-04 2343-04 2343-22 2343-23 2343-24 2343-26 2343-27 2343-28 2343-29 2346-02 2346-02 2347-02 2347-22 2347-23 2347-26 2347-27 2347-28 2347-29 2348-02 2348-22 2348-23 2348-24 2348-25 2348-27 2348-28 2348-29 2350-02 2350-27 2350-28 2350-29 2352-02 2352-27 2352-29 2353-02 2353-28 2353-29 2366-27 2366-28 2366-29 2367-02 2367-28 2367-29 2370-02 2370-27 2370-28 2370-29 2371-02 2371-27 2371-29 2374-02 2374-27 2374-28 2374-29 2375-02 2380-02 2380-03 2570-03 2570-04 2570-04 2750-08 2375-27 2375-28 2375-29瑞典SS标准,碳素工具钢：1770 1778 1880 1885………..合金工具钢: 2092 2140 2242 2260 2310 2312 2314 2511 2514 2540 2550 2700 2705 2710 2730 2900 2940………高速工具钢：2715 2716 2722 2723 2724 2725 2736 2750 2752 2754 2756 2782 HSP-6 HSP-11 HSP-15 HSP-16 SHP-17 HSP41 HSP-42 ASP-23PM ASP-30PM ASP-60PM ASP-23 ASP-30 ASP-60….….工具钢及硬质合金钢：2726 2727 2736 2750 2752 2754 2756 2782 CG20 CG35 CG40 CG60 CN02 CN10 CN30 CN40 CS05 CS10 CS20 CS35 CT30 CT45 CT50 CT60 CT75 CT60 CT75 CT85 F02 H05 H10 H20 HIP HM HML RIP R4 S2 S4 S6 SIP SH SM …….涂层硬质合金：GC015 GC135 GC315 GC1025 PO5 P35 K05 K20 P25 P45 M15 M20 K05 K25 P10 P35 K20 ………..末涂层硬质合金：B1 B2 B23 B45 G4 G5 G27 K40 M40 H5 H13 K01 K10 H20 K20 H30 K30 H45 HX K10 K30 M10 M20 S1F P01 P15 S1G P01 P10 S2 P10 P20 S4 M20 P20 P30 S6 M30 P10 P40 S25M SU41 K10 K20 M10 M20 SecoticKSecticTP15 SecticTP25 Secotic TP35….非合金钢和合金钢牌号:1305 1306 1505 1606 2120 2133 2172 2183 2223 2224 2225………不绣耐蚀铸钢：2302 2324 2333 2343 2343-12 2366 2377 2385 2387 2564 2564……..瑞典灰铸铁:0110-00 0115-00 0125-00 0130-00 0140-00 215 217 219 221 223 ….球墨铸铁: 0717-00 0717-02 0717-15 0722-00 0727-02 0732-01 0772-00 0776-03 ….可锻铸铁: 0814-00 0815-00 0852-00 0854-00 0856-00 0862-03 0864-03……..经营美国“ALCOA”优质铝板、铝棒范围：6061-T6,7075-T651,A5052-H32,7075-T6,6061-T651,5052-H112,5086-H32,5083-H111,5083-H112,1100,1050,1 060 6063,5083,5086,2011,2017,2024,3003,7022,7050,7072,6060,6061,7075,5052等合金铝板/棒/管材等★经营国产优质铝板、铝棒范围:6061-T6,7075-T651,A5052-H32,7075-T6,6061-T651, 5083-H111, 1050,1060,6061,7075,5052,6063,5083, 5086,6062,6082-T6,6262,5154,5754,5356,3000,491,LY12,LC4,1XXX,7009等合金铝板/棒/管材等常备现货铝板/厚度如下:6061: 2mm-280mm; 7075: 2mm-180mm 5052: 1mm-80mm 5083: 8mm-80mm7075-T651: 10mm-180mm 6063: 2mm-280mm 2017: 4mm-80mm6061-T6: 3mm-280mm A5052-H32: 0.5mm-10mm 5083-H111: 1mm-10mm合金铸铁: 0457-00 0466-00 0512-00 0513-00 0747-03 0747-04 ……瑞典常用钢:618 618S 718 718S 718H S136 S136H 8407 8416 STAVAX UHB33 RAMAXS ALVAR14 ASSAB88 DF3 DF2 ELMAX KM2 HMP41 HOTVAR V4 V10 ORO90 UHB20 UHB4006 UHB4462 UHB5752 UHB5860 UHB5919 UHB8159 UHB709 UHB8550 ASP-23 ASP-30 ASP-60 ………….上海扩进模具材料有限公司大量销售模具钢，进口模具钢，高速钢，粉末高速钢，钨钢，铝材，铜材，铝板，铝棒如：日本 :PX4 PX5 PDS-3 PDS-5 PAK90 PD555 PD613 SGT S50C SC5C SUS303 SUS304 SUS410 SUS420 SUS630 SCM440 SMC420 SUP9 SK3 SK4 SKD4 SKD5 SKD7 SKD8 SKD11 SKD12 SKD61 SKD62 SKH-9 SKH-51 SKH-55SKH57 SKH59 SKT4 SKS3 SKS41 SLD SLD8 SLD10 SM400A SNC815 SPHD SS41 SS330 SS400 SS490 S-Star GFA GOA GENA1 G-Star DAC DAC10 DAC45 DAC55 DEX20 DEX40 DEX60 DH21 DH31-S DH42 DH62 DHA DH2F DC11 DC53 DM FDAC YEM YEM-K YHD3 YHD27 YHD28 YHD45 YK30 YSS YXR3 YXR33 YXM1 YXM4 YXM42 MH51 MH85 NAK55 NAK80 NP8 NP9 ARK1 H3100 HAP10 HAP40 HAP72 HPM1 HPM2 HPM38 HPM50 HPM57 HPM77 化学成分瑞典：618S 618H 718 718S 718H S136 S136H 8407 8416 STAVAX ASP-23 ASP-30 UHB2311 RAMAX S ALVAR14 ASSAB88 DF3 DF2 ELMAX KM2 HMP41 HOTVAR V4 V10 ORO90 UHB20 UHB4006 UHB4462 UHB5752 UHB5860 UHB5919 UHB8159 UHB709 UHB8550 XW5 XW10 XW41 XW42 Q0R090化学成分奥国：A903 S500 S600 S709 S790 S705 S390PM S590PM S690PM M201 M202 M238 M261 M310 M238ESR W300 M330 M340 M461 W302 W303 W304 W321 W500 K100 K105 K110 K305 K340 K460 K600 K720 K990 VMRM300ESRM310ESR N100 N320 N540 N350 E116 E200 E220 E230 E400 F300 F530 V320 V155 V800 V820 化学成分德国：21NICRMO2 14NICR14 15CRNI6 20CRMO5 18CRNI8 55CR3 50CRV4 42CRMO4 34CRNIMO6 34CRALNI7 40CRNIMOA 638 2711 2316 2316H 2344 2379 2436 2510 2688 2738 1285 1292 2363 2767 2842 3207 1.3343 4125 1.7225 1.0037 1.1210 1.2101 1.1545 1.2080 1.2311 1.2312 1.2343 1.2365 1.2367 1.2550 1.2601 1.2606 1.2714 1.2840 1.2842 1.2885 1.3243 1.3247 1.3343 1.4006 1.4021 1.4034 1.4057 1.4313 1.4462 1.4542 1.4548 1.5752 1.5860 1.5919 1.6582 1.6523 1.7147 1.5920 1.7176 1.7225 1.7220 1.8509 1.8159中国：Cr12 Cr12MoV 6542 W18 W9 3Cr2W8V 15-40CrNiMo 15-42CrMo H13 20CrMnTi 30CrMnTi T8 T8A T10A T12 Y35CA Y12 Y15 Y20 Y30 Y40化学成分美国：P2 P3 P20 H11 H13 H10A F1 F2 F8 L2 L3 L6 M1 M2 M3 M4 M35 M42 M1008 M1020 W110 O1 O2 O6 L2 L3 T1 T15 S1 S7 D2 D3 D6 D7 A2 A3 A6 A8 A10 420 S7 1005 1018 1020 1035 1042 1050 1053 1069 1071 1086 1095 1018 13115 1513 1524 1548 1566 2024 2317 3135 3245 3450 4012 4024 4121 4130 4140 4150 4608 4715 4820 5015 5120 5052 5083 6061 6062 6115 6195 7055 7058 7072 7075 7260 8120 8620 8622 8742 9254 9260 A570.Gr.A K52440钨钢如：G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 V30 V40 D30 D40 D50 D60 KE11 SF-05 SF-15 SF-20 SF-30 SF-X K05 K10 K20 YG8 YG9 YG12 YG15 YG20 YG25 YG28 CD650 CD636 CD750 化学成分高速钢:SKH-9 SKH-51 SKH-55 M2 M35 M42 ASP-23 ASP-30 V10 S600 S790铜料如：日本三宝红铜银铜铜材紫铜杯士铜铬铜铍铜钨铜合金铜磷青铜锡青铜 C5191 C3604C3600 C2801 C1100化学成分轧辊钢：9Cr2Mo 9Cr2MoV 718 P20不锈钢：301 302 303 304 310 316 401 410 420 430 440 630 1CR13 2CR13 3CR13 3CR13 4CR13 S31500 S31803 S31220 S36550 321铝板：6061-T651 50527075 8011 8005 8079 6056 6012 5086 2024 1200 1100 5050 1050化学成分易切削结构钢:15S10 1.0710 10S20 1.0721 15S20 15S22 1.0723 35S20 1.0726 45S20 46S20 1.0727 60S20 60S22 1.0728 10SPb20 1.0722 35SPb 1.0756 45SPb20 46SPb20 1.0757 60SPb20 60SPb22 1.0758 9SMn28 11SMn30 1.0736 9SMn36 11SMn37 1.0736 9SMnPb28 11SMnPb30 1.0718 9SMnPb36 11SMnPb37 1.0737 9S20 11SMn28 11SMnPb28 12SMnPb35 12SMn35 10Pb20 10SPb20 17SMn2035S20 35SMn20 44SmN28 46S20 …….冷镦钢和冷挤压钢:Cq15 C15C 1.1132 Cq22 C22C 1.1152 Cq35 C35C 1.1172 Cq45 C45C 1.1192 38Cr1 1.7001 46Cr1 1.7002 38Cr1 1.700 46Cr2 1.7006 15Cr3 1.7015 34Cr4 1.7033 37Cr4 1.7034 41Cr4 1.7035 25CrMo4 1.7218 34CrMo4 1.7220 42CrMo4 1.7225 20MoCr4 1.7321 16MnCr5 1.7131 15CrNi6 1.5919 30CrNiMo8 1.6580 34CrNiMo6 1.6582 20NiCrMo2-21 21NiCrMo2 1.6523 CC4X CC4A CC8S CC8A CC11X CC11A CE10 CE15E4 CE16E4 CE20E4 20CRE4 16MnCr5E 18MnCr4E 18CrMo4E 20NiMo2E CE20E4 CE28E4 CE35E4 CE40E4 CE45E4 42Mn6E 37Cr2E 46Cr2E 34Cr4E 37Cr4e 41Cr4E 41Cr4E 36Mo3E 25CrMo4e 34CrMo4e 42CrMo4e 41CrNiMo2E 41NiCrMo7E31CrNiMo8e CE20BG1 CE20BG2 CE28B CE35B 35MnB5E 37CrBLE …..弹簧钢和轴承钢:C67ECK67 1.1231 C75E CK75 1.1248 C85E CK85 1.1269 C10E CK101 1.1274 38Si6 1.5022 38Si7 1.5023 46Si7 1.5024 51Si7 1.5025 55Si7 56Si7 1.5026 65Si7 1.5028 71Si7 1.5029 60SiMn5 1.5142 51MnV7 1.5225 54SiCr6 1.7102 60SiCr7 1.7108 67SiCr5 1.7103 55Cr3 1.7176 51CrC4 50CrV4 1.8159 58CrV4 1.8161 ......刀具用钢：SKS11 SKS2 SKS21 SKS5 SKS7 SKS81 SKS8 ……….耐冲击工具钢：SKS4 SKS41 SKS43 SKS44……….冷作模具钢：SKS3 SKS31 SKS93 SKS94 SKS95 SKD1 SKD2 SKD10 SKD12 SKD11 ……….热作模具钢：SKD4 SKD5 SKD6 SKD61 SKD62 SKD7 SKD8 SKT3 SKT4 SKT6…………）日本JIS标准结构钢牌号:SS330 SS400 SS490 SS540 SCM4400A SM400B SM400C SM490A SM490 SM490C SM490YA SM490YB SM570 CUP-Ten CUP-Ten60 FTW-52 FTW-60 FTW-70 HI-Z HI-Z Super HI-YAW-TEN HTP-52W NK-HITEN50 NK-HITE60 NK-HITEN70 NK-HITEN80 NK-HTEN100 RiverAce60 RiverAce70 RiverAce80 Welten50 Welten60 Welten70 Welten80 Welten80C Welten100N YAW-TEN50 Zirten SMA400AW SMA400BW SMA400CW SMA400AP SMA400BP SMA400CP SMA490AW SMA490BW SMA490CW SMA490AP SMA490BP SMA490CP SWA570W SWA570P SPA-H APA-C SPV315 SPV355 SPV410 SPV410 SPV450 SPV490 SPV235 SG255 SG295 SG325 SG365 SGV410 SGV450 SGV480 SGV42 SGV46 SGV49 SLA235A ALA235B ALA325B ALA325B ALA365 ALA410 SL2N255 SL3N255日本JIS标准机械结构用钢牌号:S10C S12C S15C S17C S20C S22C S25C S28C S30C S33C S35C S38C S40C S43C S45C S48C S50C S53C S58C S09CK S15CK S20CK日本JIS标准淬透性结构用钢牌号:SMn420H SMn433H SMn438H SMn4443H SCr415H SCr420H SCr435H SCr440H SCM415H SCM418H SCM420H SCM435H SCM440H SCM822H SNC415H SNC631H SNC220H SNC420H日本JIS标准易切削钢牌号:SUM11 SUN12 SUM21 SUM22 SUM22L SUM23 SUM23L SUM24L SUM25 SUM31 SUM31L SUM41 SUM42 SUM43 …………日本JIS标准合金钢牌号:SNB5 SNB7 SNB16 SNB21-1-5日本JIS标准轴承钢牌号:SUP3 SUP6 SUP7 SUP9 SUP9A AUP10 AUP11A AUP12 AUP13 SUJ1 SUJ2 SUJ3 SUJ4 SUJ5日本JIS标准不绣钢耐热钢牌号:SUS201 SUS202 SUS301 SUS302 SUS303 SUS303Se SUS303Cu SUS304 SUS304L SUS304N1 SUS304N2 SUS304LN SUS304J3 SUS305 SUS309S SUS309S SUS310S SUS316 SUS316L SUS316NSUS316LN SUS316F SUS317 SUS317L SUS317LN SUS317J1 SUS836L SUS890L SUS321 SUS347 SUSXM7 SUSXM15J1 SUS329J1 SUS329J1 SUS329J1 SUS329J4L SUS405 SUS410L SUS430 SUS430F SUS44J1 SUUSXM27 SUS403 SUS410 SUS410J1 SUS410F2 SUS416 SUS420J1 SUS420J2 SUS420F SUS420F2 SUS431 SUS440A SUS440F SUS630SUS631 SUS304TP SUS304HTP SUS309TP SUS310TP SUS890LTP SUS347HTP SUS304TKA SUS304TKC SUS316TKA SUS316T SUS321TKA SUSTKC SUS420J1TKA SUS430TKA SUSTKC SUH31 SUH35 SUH36 SUH37 SUH38 SUH309 SUH310 SUH330 SUH660 SUH661 SUH446 SUH1 SUH3 SUH4 SUH11日本JIS标准高温合金钢耐蚀钢牌号:NCF600 NCF601 NCT625 NCF690 NCF718 NCF718 NCF750 NCF751 NCE800 NCF800H NCF825 NCF80A NCF600TP NCF600TB NCF625TP NCF800TP NCF825TP NCF825TB日本JIS标准工具钢牌号:SK140 SK120 SK105 SK95 SK90 SK85 SK80 SK75 SK70 SK65 SK60日本JIS标准高速钢牌号:SKH2 SKH3 SKH4 SKH10 SKH40 SKH50 SKH51 SKH52 SKH53 SKH54 SKH55 SKH56 SKH57 SKH58 SKH59………..日本JIS标准特殊钢中空钢牌号:SK3M SK3M SK4M SK5M SK6M SK7M SK2M SK5M SKS51M SKS81MSKS95M SKC3 SKC11 SKC24 SKC25 SKC31日本JIS标准钨钢（硬质合金钢）牌号:切削工具用：P01 P15 P10 P20 P30 P40 M10 M20 M30 M40 K01 K10 K20 K30。

适用于在固熔热处理后,进行冷加工、或矫直、矫平以提高强度的产品T4 固熔热处理后自然时效至基本稳定的状态适用于固熔热处理后,不再进行冷加工(可进行短直、矫平,但不影响力学性能极限)的产品T5 由高温成型过程冷却,然后进行人工时效的状态适用于由高温成型过程冷却后,不经过冷加工(可进行矫直、矫平,但不影响力学性能极限),予以人工时效的产品T6 固熔热处理后进行人工时效的状态适用于固熔热处理后,不再进行冷加工(可进行矫直、矫平、但不影响力学性能极限)的产品T7 固熔热处理后进行过时效的状态适用于固熔热处理后,为获取某些重要特性,在人工时效时,强度在时效曲线上越过了最高峰点的产品T8 固熔热处理后经冷加工,然后进行人工时效的状态适用于经冷加工,或矫直、矫平以提高强度的产品T9 固熔热处理后人工时效,然后进行冷加工的状态适用于经冷加工提高强度的产品T10 由高温成型过程冷却后,进行冷加工,然后人工时效的状态适用于经冷加工,或矫直、矫平以提高强度的产品某些6×××系的合金,无论是炉内固熔热处理,还是从高温成形过程急冷以保留可溶性组分在固熔体中,均能达到相同的固熔热处理效果,这些合金的T3、T4、T6、T7、T8和T9状态可采用上述两种处理方法的任一种.铝合金热处理工艺6061铝合金具有较好的强度，最为苛刻的耐用性，易于焊接，耐腐蚀，适合应用于高强度复合地板。

耐用性ASTM磨损电阻测试已证实了无与伦比的耐用性。

耐蚀性6061合金提供了传统的在典型应用中的优良的耐腐蚀性。

可焊性6061提供了独特的兼容性，在很多重要的领域中体现出优异的焊接强度。

6061-T6花纹片材和板材的强度，防滑性和耐久性的是该材质的主要属性。

广泛应用于装载坡道，沟盖板，坞登，基座板，地板，楼梯踏板。

6061-T651合金板是经过双重性机械磨光的，使得平板表面保持光滑及优越的平整度，让您减少及消除成本高昂的表面处理工序。

8SKC9215－3300、1140／660V（PLC）矿用隔爆型组合开关使用说明书山西长治贝克电气有限公司目录一、用途及概述 (1)二、使用条件 (1)三、主要技术参数和技术性能 (2)四、开关型号含义 (3)五、开关结构 (4)六、电气工作基本原理 (5)七、操作方法 (6)八、故障信息显示 (11)九、安装接线 (12)十、使用与维护 (13)十一、产品包装与保管 (14)十二、定货须知 (15)附录 (16)一、用途及概述8SKC9215系列矿用隔爆型组合开关适用于含有爆炸性危险气体（甲烷）和煤尘的矿井中，在交流50HZ，电压1140（660V）线路中，对三相鼠笼式电动机或双绕组鼠笼式异步电动机的起动、停止进行控制和保护，并可在停止时方便地进行换向。

当设备出现过载，短路等故障时能自动切断电源并显示及记忆故障信号，开关还具有模拟漏电闭锁保护试验及短路保护试验功能，运行中能显示各支路状态参数。

本组合开关采用德国西门子公司S7-200可编程控制。

开关具有友好的人机界面，采用全中文液晶触摸屏显示及中文提示，更为直观，性能稳定，可靠性高，特别适合现场操作。

二、使用条件a、海拔不超过2000m；b、运行环境温度-25ºC－+40ºC;c、周围空气相对湿度不大于95％（+25ºC）;d、在有沼气爆炸性混合物矿井中；e、在无显著摇动和冲击的地方；f、与垂直在的安装倾斜度不超过15º;g、在无破坏绝缘的气体或蒸气的环境中；h、在无滴水的地方；I、污染等级：3级；J、安装类别：Ⅱ类（负载水平级）；三、主要技术参数和技术性能3.1主要技术参数：3.1.1 额定电压：660V、1140V或3300V3.1.2 额定频率：50HZ3.1.3 额定工作电流：当电压为660V／1140V时：总电流450A～1800A;单台隔离开关450 A；单台接触器80～400 A;当电压为3300V时：总电流1600A；单台隔离开关800 A；单台接触器160A、400A、600 A;3.1.4 最大控制功率：在660 V，ηcosΦ=0.75时单回路为240KW在1140 V，ηcosΦ=0.75时单回路为500KW在3300 V，ηcosΦ=0.75时单回路为2000KW3.1.5 8小时工作制；3.1.6 允许电压波动范围：85～110％；3.1.7 电流整定范围：0～400A；3.1.8 机械寿命：接触器大于150万次；隔离换向开关大于0.6万次；3.1.9 电寿命：大于6万次；3.1.10 引入电缆外径：进线3个可穿入不大于Φ70（Φ80）mm的橡套电缆；出线4～8个，可穿入不大于Φ70（Φ80）mm橡套电缆；控制线6～8个，可穿入不大于Φ23mm的橡套电缆；3.1.11 外型尺寸：长×宽×高＝2800（3250）×880×990（mm）3.2技术性能：本组合开关具有短路，过载、断相、漏电闭锁、过、欠压等各种保护。

凌特公司基准芯片参数表基准输出形式初始精度温飘最低压差静态电流或最低旁路电流温度分档封装单位V % ppm/°C V uALT6650CS50.4 串联0.75 30 .1 11uA 0°C ~ 70°C SOT-23LT6650HS50.4 串联 1.5 30 .1 11uA -40°C ~ 125°C SOT-23LT6650IS50.4 串联 1 30 .1 11uA -40°C ~ 85°C SOT-23LTC1440 1.182 并联 1 55.5 并联 2 0°C ~ 70°C, -40°C ~ 85°C MS-8, SO-8, DIP-8, DFN-8LTC1442 1.182 并联 1 55.5 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SO-8, DIP-8LTC1443 1.182 并联 1 44.4 并联 5.5 0°C ~ 70°C, -40°C ~ 85°C DIP-16, SO-16, DFN-16LTC1540 1.182 并联 2.2 62.5 并联0.3 MS-8, SO-8, DFN-8LTC1842 1.182 并联 1 55.5 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SO-8LTC1843 1.182 并联 1 55.5 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SO-8LTC1541 1.2 并联 1.25 62.5 并联 5 0°C ~ 70°C, -40°C ~ 85°C MS-8, SO-8, DFN-8LTC1998 1.2 并联0.6 71 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SOT-23LTC1444 1.221 并联 1 44.4 并联 5.5 0°C ~ 70°C, -40°C ~ 85°C DIP-16, SO-16LTC1445 1.221 并联 1 44.4 并联 5.5 0°C ~ 70°C, -40°C ~ 85°C DIP-16, SO-16, DFN-16LT1034BCZ-1.2 1.225 并联 1.2 20 并联10 0°C ~ 70°C TO-92LT1034BIZ-1.2 1.225 并联 1.2 20 并联10 -40°C ~ 85°C TO-92LT1034CS8-1.2 1.225 并联 1.2 40 并联10 0°C ~ 70°C SO-8LT1034CZ-1.2 1.225 并联 1.2 40 并联10 0°C ~ 70°C TO-92LT1034IS8-1.2 1.225 并联 1.2 40 并联10 -40°C ~ 85°C SO-8LT1034IZ-1.2 1.225 并联 1.2 40 并联10 -40°C ~ 85°C TO-921LT1004IS8-1.2 1.235 并联0.8 20 并联8 -40°C ~ 85°C SO-8LT1004IZ-1.2 1.235 并联0.3 20 并联8 -40°C ~ 85°C TO-92LT1389ACS8-1.25 1.25 并联0.05 10 并联0.6 0°C ~ 70°C SO-8LT1389BCS8-1.25 1.25 并联0.05 20 并联0.6 0°C ~ 70°C SO-8LT1634ACS8-1.25 1.25 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-1.25 1.25 并联0.05 10 并联7 -40°C ~ 85°C SO-8LT1634BCMS8-1.25 1.25 并联0.05 25 并联7 0°C ~ 70°C MS-8LT1634BCS8-1.25 1.25 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-1.25 1.25 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-1.25 1.25 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-1.25 1.25 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-1.25 1.25 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-1.25 1.25 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-1.25 1.25 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LTC6652AHMS8-1.25 1.25 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-1.25 1.25 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-1.25 1.25 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-1.25 1.25 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1790ACS6-2.048 2.048 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-2.048 2.048 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-2.048 2.048 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-2.048 2.048 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LTC6652AHMS8-2.0482.048 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-2.0482.048 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-2.0482.048 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-2.0482.048 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1004CS8-2.5 2.5 并联0.8 20 并联12 0°C ~ 70°C SO-82LT1004IZ-2.5 2.5 并联0.8 20 并联12 -40°C ~ 85°C TO-92LT1009CMS8 2.5 并联0.2 25 并联400 0°C ~ 70°C MS-8LT1009CZ 2.5 并联0.2 25 并联400 0°C ~ 70°C TO-92LT1009IS8 2.5 并联0.4 35 并联400 -40°C ~ 85°C SO-8LT1009IZ 2.5 并联0.2 35 并联400 -40°C ~ 85°C TO-92LT1009S8 2.5 并联0.4 25 并联400 0°C ~ 70°C SO-8LT1019ACN8-2.5 2.5 串联0.05 5 1.1 650 0°C ~ 70°C DIP-8LT1019ACS8-2.5 2.5 串联0.05 5 1.1 650 0°C ~ 70°C SO-8LT1019AIS8-2.5 2.5 串联0.05 10 1.1 650 -40°C ~ 85°C SO-8LT1019CN8-2.5 2.5 串联0.2 20 1.1 650 0°C ~ 70°C DIP-8LT1019CS8-2.5 2.5 串联0.2 20 1.1 650 0°C ~70°C SO-8LT1019IN8-2.5 2.5 串联0.2 20 1.1 650 -40°C ~ 85°C DIP-8LT1019IS8-2.5 2.5 串联0.2 20 1.1 650 -40°C ~ 85°C SO-8LT1034BCZ-2.5 2.5 并联 1.6 20 并联15 0°C ~ 70°C TO-92LT1034BIZ-2.5 2.5 并联 1.6 20 并联15 -40°C ~ 85°C TO-92LT1034CS8-2.5 2.5 并联 1.6 40 并联15 0°C ~ 70°C SO-8LT1034CZ-2.5 2.5 并联 1.6 40 并联15 0°C ~ 70°C TO-92LT1034IS8-2.5 2.5 并联 1.6 40 并联15 -40°C ~ 85°C SO-8LT1034IZ-2.5 2.5 并联 1.6 40 并联15 -40°C ~ 85°C TO-92LT1389BCS8-2.5 2.5 并联0.05 20 并联0.6 0°C ~ 70°C SO-8LT1460ACN8-2.5 2.5 串联0.075 10 .9 100 0°C ~ 70°C DIP-8LT1460ACS8-2.5 2.5 串联0.075 10 .9 100 0°C ~ 70°C SO-8LT1460BIN8-2.5 2.5 串联0.1 10 .9 100 -40°C ~ 85°C DIP-8LT1460BIS8-2.5 2.5 串联0.1 10 .9 100 -40°C ~ 85°C SO-8LT1460CCMS8-2.5 2.5 串联0.1 15 .9 100 0°C ~ 70°C MS-8LT1460DCN8-2.5 2.5 串联0.1 20 .9 100 0°C ~ 70°C DIP-8LT1460DCS8-2.5 2.5 串联0.1 20 .9 100 0°C ~ 70°C SO-83LT1460EIN8-2.5 2.5 串联0.125 20 .9 100 -40°C ~ 85°C DIP-8LT1460EIS8-2.5 2.5 串联0.125 20 .9 100 -40°C ~ 85°C SO-8LT1460FCMS8-2.5 2.5 串联0.15 25 .9 100 0°C ~ 70°C MS-8LT1460GCZ-2.5 2.5 串联0.25 25 .9 100 0°C ~ 70°C TO-92LT1460GIZ-2.5 2.5 串联0.25 25 .9 100 -40°C ~ 85°C TO-92LT1460HCS3-2.5 2.5 串联0.5 20 .9 100 0°C ~ 70°C SOT-23LT1460JCS3-2.5 2.5 串联0.4 20 .9 100 0°C ~ 70°C SOT-23LT1460KCS3-2.5 2.5 串联0.5 50 .9 100 0°C ~ 70°C SOT-23LT1460LHS8-2.5 2.5 串联0.2 25 .9 100 -40°C ~ 125°C SO-8LT1460MHS8-2.5 2.5 串联0.2 50 .9 100 -40°C ~ 125°C SO-8LT1461ACS8-2.5 2.5 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-2.5 2.5 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-2.5 2.5 串联0.06 7 .3 35 0°C ~ 70°C SO-8LT1461BIS8-2.5 2.5 串联0.06 7 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-2.5 2.5 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-2.5 2.5 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-2.5 2.5 串联0.15 20 .3 35 -40°C ~ 125°C SO-8LT1634ACS8-2.5 2.5 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-2.5 2.5 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634BCMS8-2.5 2.5 并联0.05 25 并联7 0°C ~ 70°C MS-8LT1634BCS8-2.5 2.5 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-2.5 2.5 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-2.5 2.5 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-2.5 2.5 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-2.5 2.5 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-2.5 2.5 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-2.5 2.5 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6654AHS6-2.5 2.5 串联0.05 3 .055 350 -40°C ~ 85°C SOT-23LT6654AMPS6-2.5 2.5 串联0.05 3 .055 350 -55°C ~ 125°C SOT-234LT6654BHS6-2.5 2.5 串联0.1 6 .055 350 -55°C ~ 125°C SOT-23LT6654BMPS6-2.5 2.5 串联0.1 6 .055 350 -40°C ~ 85°C SOT-23LT6656ACS6-2.5 2.5 串联0.05 10 .5 0.85 0°C ~ 70°C SOT-23LT6656AIS6-2.5 2.5 串联0.05 10 .5 0.85 -40°C ~ 85°C SOT-23LT6656BCS6-2.5 2.5 串联0.1 20 .5 0.85 0°C ~ 70°C SOT-23LT6656BIS6-2.5 2.5 串联0.1 20 .5 0.85 -40°C ~ 85°C SOT-23LT6660HCDC-2.5 2.5 串联0.2 20 .9 115 0°C ~ 70°C DFN-3LT6660JCDC-2.5 2.5 串联0.4 20 .9 115 0°C ~ 70°C DFN-3LT6660KCDC-2.5 2.5 串联0.5 50 .9 115 0°C ~ 70°C DFN-3LTC1258CMS8-2.5 2.5 串联0.21 60 .1 4 0°C ~ 70°C MS-8LTC1258CS8-2.5 2.5 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-2.5 2.5 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-2.5 2.5 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-2.5 2.5 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-2.5 2.5 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-2.5 2.5 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1460HCS3-3 3 串联0.2 20 .9 145 0°C ~ 70°C SOT-23LT1460JCS3-3 3 串联0.4 20 .9 145 0°C ~ 70°C SOT-23LT1460KCS3-3 3 串联0.5 50 .9 145 0°C ~ 70°C SOT-23LT1461ACS8-3 3 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-3 3 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-3 3 串联0.1 10 .3 35 0°C ~ 70°C SO-8LT1461BIS8-3 3 串联0.06 7 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-3 3 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-3 3 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-3 3 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1790ACS6-3 3 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-3 3 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-3 3 串联0.1 25 .1 35 0°C ~ 70°C SOT-235LT1790BIS6-3 3 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6660HCDC-3 3 串联0.2 20 .9 145 0°C ~ 70°C DFN-3LT6660JCDC-3 3 串联0.4 20 .9 145 0°C ~ 70°C DFN-3LT6660KCDC-3 3 串联0.5 50 .9 145 0°C ~ 70°C DFN-3LTC1258CMS8-3 3 串联0.15 60 .1 4 0°C ~ 70°C MS-8LTC1258CS8-3 3 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-3 3 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-3 3 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-3 3 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-3 3 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-3 3 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1460HCS3-3.3 3.3 串联0.2 20 .9 145 0°C ~ 70°C SOT-23LT1460JCS3-3.3 3.3 串联0.4 20 .9 145 0°C ~ 70°C SOT-23LT1460KCS3-3.3 3.3 串联0.5 50 .9 145 0°C ~ 70°C SOT-23LT1461ACS8-3.3 3.3 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-3.3 3.3 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-3.3 3.3 串联0.1 10 .3 35 0°C ~ 70°C SO-8LT1461BIS8-3.3 3.3 串联0.1 10 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-3.3 3.3 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-3.3 3.3 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-3.3 3.3 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1790ACS6-3.3 3.3 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-3.3 3.3 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-3.3 3.3 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-3.3 3.3 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6660HCDC-3.3 3.3 串联0.2 20 .9 145 0°C ~ 70°C DFN-3LT6660JCDC-3.3 3.3 串联0.4 20 .9 145 0°C ~ 70°C DFN-3LT6660KCDC-3.3 3.3 串联0.5 50 .9 145 0°C ~ 70°C DFN-3LTC6652AHMS8-3.3 3.3 串联0.05 5 .3 350 -40°C ~ 125°C MS-86LTC6655BHMS8-3.3 3.3 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-3.3 3.3 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1389BCS8-4.096 4.096 并联0.075 50 并联0.6 0°C ~ 70°C SO-8LT1461ACS8-4 4.096 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-4 4.096 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-4 4.096 串联0.06 7 .3 35 0°C ~ 70°C SO-8LT1461BIS8-4 4.096 串联0.1 10 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-4 4.096 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-4 4.096 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-4 4.096 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1634ACS8-4.096 4.096 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-4.096 4.096 并联0.05 10 并联7 -40°C ~ 85°C SO-8LT1634BCS8-4.096 4.096 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-4.096 4.096 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-4.096 4.096 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-4.096 4.096 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-4.096 4.096 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-4.096 4.096 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-4.096 4.096 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LTC1258CMS8-4.1 4.096 串联0.15 40 .1 4 0°C ~ 70°C MS-8LTC1258CS8-4.1 4.096 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-4.1 4.096 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-4.0964.096 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-4.0964.096 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-4.0964.096 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-4.0964.096 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1019ACN8-4.5 4.5 串联0.05 5 1.1 650 0°C ~ 70°C DIP-8LT1019CN8-4.5 4.5 串联0.2 20 1.1 650 0°C ~ 70°C DIP-87LT1019IN8-4.5 4.5 串联0.2 5 1.1 650 -40°C ~ 85°C DIP-8LT1019ACN8-5 5 串联0.05 5 1.1 650 0°C ~ 70°C DIP-8LT1019ACS8-5 5 串联0.05 3 1.1 650 0°C ~ 70°C SO-8LT1019AIS8-5 5 串联0.05 3 1.1 650 -40°C ~ 85°C SO-8LT1019CN8-5 5 串联0.2 5 1.1 650 0°C ~ 70°C DIP-8LT1019CS8-5 5 串联0.2 20 1.1 650 0°C ~ 70°C SO-8LT1019IN8-5 5 串联0.2 5 1.1 650 -40°C ~ 85°C DIP-8LT1019IS8-5 5 串联0.2 20 1.1 650 -40°C ~ 85°C SO-8LT1021BCH-5 5 串联 1 5 2.2 800 0°C ~ 70°C to-5LT1021BCN8-5 5 串联 1 5 2.2 800 0°C ~ 70°C DIP-8LT1021BMH-5 5 串联 1 5 2.2 800 -55°C ~ 125°C TO-5LT1021CCH-5 5 串联0.05 20 2.2 800 0°C ~ 70°C TO-5LT1021CCN8-5 5 串联0.05 20 2.2 800 0°C ~ 70°C DIP-8LT1021CIN8-5 5 串联0.05 20 2.2 800 -40°C ~ 85°C DIP-8LT1021CMH-5 5 串联0.05 20 2.2 800 -55°C ~ 125°C TO-5LT1021DCN8-5 5 串联 1 20 2.2 800 0°C ~ 70°C DIP-8LT1021DCS8-5 5 串联 1 20 2.2 800 0°C ~ 70°C SO-8LT1021DIN8-5 5 串联 1 20 2.2 800 -40°C ~ 85°C DIP-8LT1027BCN8-5 5 串联0.05 1 3 2200 0°C ~ 70°C DIP-8LT1027CCN8-5 5 串联0.05 2 3 2200 0°C ~ 70°C DIP-8LT1027CCS8-5 5 串联0.05 2 3 2200 0°C ~ 70°C SO-8LT1027DCN8-5 5 串联0.05 2 3 2200 0°C ~ 70°C DIP-8LT1027DCS8-5 5 串联0.05 2 3 2200 0°C ~ 70°C SO-8LT1027ECN8-5 5 串联0.1 3 3 2200 0°C ~ 70°C DIP-8LT1027ECS8-5 5 串联0.1 3 3 2200 0°C ~ 70°C SO-8LT1029ACZ 5 并联0.2 20 并联700 0°C ~ 70°C TO-92LT1029CZ 5 并联 1 34 并联700 0°C ~ 70°C TO-92LT1236ACN8-5 5 串联0.05 2 1 800 0°C ~ 70°C DIP-88LT1236BCN8-5 5 串联0.1 5 1 800 0°C ~ 70°C DIP-8LT1236BCS8-5 5 串联0.1 5 1 800 0°C ~ 70°C SO-8LT1236BIN8-5 5 串联0.1 15 1 800 -40°C ~ 85°C DIP-8LT1236BIS8-5 5 串联0.1 5 1 800 -40°C ~ 85°C SO-8LT1236CCN8-5 5 串联0.1 10 1 800 0°C ~ 70°C DIP-8LT1236CCS8-5 5 串联0.1 10 1 800 0°C ~ 70°C SO-8LT1236CIN8-5 5 串联0.1 10 1 800 -40°C ~ 85°C DIP-8LT1236CIS8-5 5 串联0.1 10 1 800 -40°C ~ 85°C SO-8LT1389BCS8-5 5 并联0.075 50 并联0.6 0°C ~ 70°C SO-8LT1460ACN8-5 5 串联0.075 5 .9 125 0°C ~ 70°C DIP-8LT1460ACS8-5 5 串联0.075 10 .9 125 0°C ~ 70°C SO-8LT1460BIN8-5 5 串联0.1 5 .9 125 -40°C ~ 85°C DIP-8LT1460BIS8-5 5 串联0.1 10 .9 125 -40°C ~ 85°C SO-8LT1460CCMS8-5 5 串联0.1 15 .9 125 0°C ~ 70°C MS-8LT1460DCN8-5 5 串联0.125 10 .9 125 0°C ~ 70°C DIP-8LT1460DCS8-5 5 串联0.125 10 .9 125 0°C ~ 70°C SO-8LT1460EIN8-5 5 串联0.125 10 .9 125 -40°C ~ 85°C DIP-8LT1460EIS8-5 5 串联0.125 20 .9 125 -40°C ~ 85°C SO-8LT1460FCMS8-5 5 串联0.15 25 .9 125 0°C ~ 70°C MS-8LT1460GCZ-5 5 串联0.25 25 .9 125 0°C ~ 70°C TO-92LT1460GIZ-5 5 串联0.25 25 .9 125 -40°C ~ 85°C TO-92LT1460HCS3-5 5 串联0.2 20 .9 125 0°C ~ 70°C SOT-23LT1460JCS3-5 5 串联0.4 20 .9 125 0°C ~ 70°C SOT-23LT1460KCS3-5 5 串联0.5 50 .9 125 0°C ~ 70°C SOT-23LT1460LHS8-5 5 串联0.2 20 .9 125 -40°C ~ 125°C SO-8LT1460MHS8-5 5 串联0.2 50 .9 125 -40°C ~ 125°C SO-8LT1461ACS8-5 5 串联0.04 3 .3 35 0°C ~ 70°C SO-89LT1461BIS8-5 5 串联0.06 7 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-5 5 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-5 5 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-5 5 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1634ACS8-5 5 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-5 5 并联0.05 10 并联7 -40°C ~ 85°C SO-8LT1634BCS8-5 5 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-5 5 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-5 5 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-5 5 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-5 5 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-5 5 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-5 5 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6660HCDC-5 5 串联0.2 20 .9 160 0°C ~ 70°C DFN-3LT6660JCDC-5 5 串联0.4 20 .9 160 0°C ~ 70°C DFN-3LT6660KCDC-5 5 串联0.5 50 .9 160 0°C ~ 70°C DFN-3LTC1258CMS8-5 5 串联0.18 60 .1 4 0°C ~ 70°C MS-8LTC1258CS8-5 5 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-5 5 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-5 5 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-5 5 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-5 5 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-5 5 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1021BCN8-77 串联0.71 5 1.5 800 0°C ~ 70°C DIP-8LT1021DCN8-77 串联0.71 20 1.5 800 0°C ~ 70°C DIP-8LT1021DCS8-77 串联0.71 20 1.5 800 0°C ~ 70°C SO-8LTZ1000ACH/CH7.2 Super Zener 4 0.05 N/A 250 -55°C ~ 125°C to-510LT1019CS8-1010 串联0.2 5 1.1 650 0°C ~ 70°C SO-8LT1019IN8-1010 串联0.2 20 1.1 650 -40°C ~85°C DIP-8LT1021BCN8-1010 串联0.5 5 1.5 800 0°C ~ 70°C DIP-8LT1021BMH-1010 串联 1 5 2.2 800 -55°C ~ 125°C TO-5LT1021CCN8-1010 串联0.05 5 2.2 800 0°C ~ 70°C DIP-8LT1021CIN8-1010 串联0.05 5 2.2 800 -40°C ~ 85°C DIP-8LT1021DCN8-1010 串联0.5 5 2.2 800 0°C ~ 70°C DIP-8LT1021DCS8-1010 串联0.5 20 1.5 800 0°C ~ 70°C SO-8LT1021DIN8-1010 串联0.05 5 2.2 800 -40°C ~ 85°C DIP-8LT1031BCH10 串联0.05 5 1 1200 0°C ~ 70°C TO-39LT1031BMH10 串联0.05 5 1 1200 -55°C ~ 125°C TO-39LT1031CCH10 串联0.1 15 1 1200 0°C ~ 70°C TO-39LT1031DCH10 串联0.2 25 1 1200 0°C ~ 70°C TO-39LT1031DMH10 串联0.2 25 1 1200 -55°C ~ 125°C TO-39LT1236ACN8-1010 串联0.05 2 1 800 0°C ~ 70°C DIP-8LT1236ACS8-1010 串联0.05 5 1 800 0°C ~ 70°C SO-8LT1236AIN8-1010 串联0.05 2 1 800 -40°C ~ 85°C DIP-8LT1236AIS8-1010 串联0.05 2 1 800 -40°C ~ 85°C SO-8LT1236BCN8-1010 串联0.1 5 1 800 0°C ~ 70°C DIP-8LT1236BCS8-1010 串联0.1 5 1 800 0°C ~ 70°C SO-8LT1236BIN8-1010 串联0.1 5 1 800 -40°C ~ 85°C DIP-8LT1236BIS8-1010 串联0.1 5 1 800 -40°C ~ 85°C SO-8LT1236CCN8-1010 串联0.1 10 1 800 0°C ~ 70°C DIP-8LT1236CCS8-1010 串联0.1 10 1 800 0°C ~ 70°C SO-8LT1236CIN8-1010 串联0.1 10 1 800 -40°C ~ 85°C DIP-8LT1236CIS8-1010 串联0.1 10 1 800 -40°C ~ 85°C SO-8LT1460ACN8-1010 串联0.075 10 .9 190 0°C ~ 70°C DIP-811LT1460BIS8-1010 串联0.1 10 .9 190 -40°C ~ 85°C SO-8LT1460CCMS8-1010 串联0.1 7 .9 190 0°C ~ 70°C MS-8LT1460DCN8-1010 串联0.1 10 .9 190 0°C ~ 70°C DIP-8LT1460DCS8-1010 串联0.1 20 .9 190 0°C ~ 70°C SO-8LT1460EIN8-1010 串联0.125 20 .9 190 -40°C ~ 85°C DIP-8LT1460EIS8-1010 串联0.125 20 .9 190 -40°C ~ 85°C SO-8LT1460FCMS8-1010 串联0.15 25 .9 190 0°C ~ 70°C MS-8LT1460GCZ-1010 串联0.25 25 .9 190 0°C ~ 70°C TO-92LT1460GIZ-1010 串联0.25 25 .9 190 -40°C ~ 85°C TO-92LT1460HCS3-1010 串联0.2 20 1.1 190 0°C ~ 70°C SOT-23LT1460JCS3-1010 串联0.4 20 1.1 190 0°C ~ 70°C SOT-23LT1460KCS3-1010 串联0.5 50 1.1 190 0°C ~ 70°C SOT-23LT6660HCDC-1010 串联0.2 20 .9 215 0°C ~ 70°C DFN-3LT6660JCDC-1010 串联0.4 20 .9 215 0°C ~ 70°C DFN-3LT6660KCDC-1010 串联0.5 50 .9 215 0°C ~ 70°C DFN-3LT1431CN8可调并联0.4 30 并联600 0°C ~ 70°C DIP-8LT1431CS8可调并联0.4 30 并联600 0°C ~ 70°C SO-8LT1431CZ可调并联0.4 30 并联600 0°C ~ 70°C TO-92LT1431IN8可调并联0.4 30 并联600 -40°C ~ 85°C DIP-8LT1431IS8可调并联0.4 30 并联600 -40°C ~ 85°C SO-8LT1431IZ可调并联0.4 50 并联600 -40°C ~ 85°C TO-9212。

EFR32MG12 2.4 GHz 19 dBm Radio Board BRD4161A Reference ManualRADIO BOARD FEATURES•Wireless SoC:EFR32MG12P432F1024GL125•CPU core: ARM Cortex ®-M4 with FPU •Flash memory: 1024 kB •RAM: 256 kB•Operation frequency: 2.4 GHz •Transmit power: 19 dBm•Integrated PCB antenna, UFL connector (optional).•Touch Slider•Crystals for LFXO and HFXO: 32.768 kHz and 38.4 MHz.The BRD4161A Mighty Gecko Radio Board enables developers to develop Zigbee ®, Thread,Bluetooth ® low energy and proprietary wireless applications. The board con-tains a Mighty Gecko Wireless System on Chip 2.4 GHz and optimized for operation with 19 dBm output power. With the on-board printed antenna and RF connector radi-ated and conducted testing is supported.The BRD4161A Mighty Gecko Radio Board plugs into the Wireless Starter Kit Main-board provided with the Mighty Gecko Starter Kit to get access to display, buttons and additional features from Expansion Boards. With the supporting Simplicity Studio suite of tools, developers can take advantage of graphical wireless application development; mesh networking debug and packet trace; and visual energy profiling and optimization. The board also serves as an RF reference design for applications targeting 2.4 GHz wireless operation with 19 dBm output power.This document contains brief introduction and description of the BRD4161A Radio Board features focusing on the RF sections and performance.| Smart. Connected. Energy-friendly.Rev. 1.00Introduction 1. IntroductionThe EFR32 Mighty Gecko Radio Boards provide a development platform (together with the Wireless Starter Kit Mainboard) for the Silicon Labs EFR32 Mighty Gecko Wireless System on Chips and serve as reference designs for the matching network of the RF inter-face.The BRD4161A Radio Board is designed to operate in the 2400-2483.5 MHz band with the RF matching network optimized to operate with 19 dBm output power.To develop and/or evaluate the EFR32 Mighty Gecko, the BRD4161A Radio Board can be connected to the Wireless Starter Kit Main-board to get access to display, buttons and additional features from Expansion Boards and also to evaluate the performance of the RF interface.2. Radio Board Connector2.1 IntroductionThe board-to-board connector scheme allows access to all EFR32MG12 GPIO pins as well as the RESETn signal. For more informa-tion on the functions of the available pin functions, see the EFR32MG12 data sheet.2.2 Radio Board Connector Pin AssociationsThe figure below shows the pin mapping on the connector to the radio pins and their function on the Wireless Starter Kit Mainboard.GNDF9 / PA3 / VCOM_RTS 3v3VCOM_RTS / PA3 / P36P200Upper RowNC / P38NC / P40PF9 / P42PF11 / P44DEBUG.TMS_SWDIO / PF1 / F0DISP_ENABLE / PD15 / F14UIF_BUTTON0 / PF6 / F12UIF_LED1 / PF4 / F10VCOM_CTS / PA2 / F8DEBUG.RESET / RADIO_#RESET / F4DEBUG.TDO_SWO / PF2 / F2DISP_SI / PC6 / F16VCOM_TXD / PA0 / F6PTI_DATA / PB12 / F20DISP_EXTCOMIN / PD13 / F18USB_VBUS5VBoard ID SCLGNDBoard ID SDAUSB_VREG F7 / PA1 / VCOM_RXD F5 / PA5 / VCOM_ENABLE F3 / PF3 / DEBUG.TDIF1 / PF0 / DEBUG.TCK_SWCLK P45 / PF12P43 / PF10P41 / PF8P39 / NC P37/ PB10 / SENSOR_ENABLE F11 / PF5 / UIF_LED1F13 / PF7 / UIF_BUTTON1F15 / PC8 / DISP_SCLK F17 / PD14 / DISP_SCS F19 / PB13 / PTI_FRAME F21 / PB11 / PTI_CLK GND VMCU_IN PD8 / P0P201Lower RowPD9 / P2PD10 / P4PD11 / P6GNDNCP35 / PA2 / VCOM_CTS P7 / PA9P5 / PA8P3 / PA7P1 / PA6P33 / PA0 / VCOM_TXD P31 / PK2P29 / PK0P27 / PJ14P25 / PI2P23 / PI0P21 / PF14P19 / NC P17 / PC5P15 / PB9P13 / PC11P11 / PB7P9 / PB6VCOM_RXD / P34 / P34BODEN / P32PK1/ P30PJ15 / P28PI3 / P26PI1 / P24PF15 / P22PF13 / P20NC / P18PC4 / P16PB8 / P14PC10 / P12PC9 / P10PD12 / P8Figure 2.1. BRD4161A Radio Board Connector Pin MappingRadio Board Connector3. Radio Board Block Summary3.1 IntroductionThis section gives a short introduction to the blocks of the BRD4161A Radio Board.3.2 Radio Board Block DiagramThe block diagram of the EFR32MG Radio Board is shown in the figure below.Figure 3.1. BRD4161A Block Diagram3.3 Radio Board Block Description3.3.1 Wireless MCUThe BRD4161A Mighty Gecko Radio Board incorporates an EFR32MG12P432F1024GL125 Wireless System on Chip featuring 32-bit Cortex®-M4 with FPU core, 1024 kB of flash memory and 256 kB of RAM and a 2.4 GHz band transceiver with output power up to 19 dBm. For additional information on the EFR32MG12P432F1024GL125, refer to the EFR32MG12 Data Sheet.3.3.2 LF Crystal Oscillator (LFXO)The BRD4161A Radio Board has a 32.768 kHz crystal mounted.3.3.3 HF Crystal Oscillator (HFXO)The BRD4161A Radio Board has a 38.4 MHz crystal mounted.| Smart. Connected. Energy-friendly.Rev. 1.00 | 33.3.4 Matching Network for 2.4 GHzThe BRD4161A Radio Board incorporates a 2.4 GHz matching network which connects the 2.4 GHz TRX pin of the EFR32MG12 to the one on-board printed Inverted-F antenna. The component values were optimized for the 2.4 GHz band RF performace and current con-sumption with 19 dBm output power.For detailed description of the matching network, see Chapter 4.2.1 Description of the 2.4 GHz RF Matching.3.3.5 Inverted-F AntennaThe BRD4161A Radio Board includes a printed Inverted-F antenna (IFA) tuned to have close to 50 Ohm impedance at the 2.4 GHz band.For detailed description of the antenna see Chapter 4.5 Inverted-F Antenna.3.3.6 UFL ConnectorTo be able to perform conducted measurements, Silicon Labs added an UFL connector to the Radio Board. The connector allows an external 50 Ohm cable or antenna to be connected during design verification or testing.Note: By default the output of the matching network is connected to the printed Inverted-F antenna by a series component. It can be connected to the UFL connector as well through a series 0 Ohm resistor which is not mounted by default. For conducted measurements through the UFL connector the series component to the antenna should be removed and the 0 Ohm resistor should be mounted (see Chapter 4.2 Schematic of the RF Matching Network for further details).3.3.7 Radio Board ConnectorsTwo dual-row, 0.05” pitch polarized connectors make up the EFR32MG Radio Board interface to the Wireless Starter Kit Mainboard. For more information on the pin mapping between the EFR32MG12P432F1024GL125 and the Radio Board Connector, refer to Chapter 2.2 Radio Board Connector Pin Associations.3.3.8 Capacitive Touch SliderThe touch slider (T2) utilizes the capacitive touch capability of the Capacitance Sense Module of the EFR32MG12. The slider interpo-lates 4 separate pads to find the exact position of a finger.The figure below shows the pin mapping of the touch slider to the Wireless SoC.Wireless SoCFigure 3.2. Touch Slider Pin MappingRev. 1.00 | 44. RF Section4.1 IntroductionThis section gives a short introduction to the RF section of the BRD4161A.4.2 Schematic of the RF Matching NetworkThe schematic of the RF section of the BRD4161A Radio Board is shown in the following figure.2.4 GHz Matching 2.4 GHz RF OutputSelection & Inverted-F AntennaFigure 4.1. Schematic of the RF Section of the BRD4161A4.2.1 Description of the 2.4 GHz RF MatchingThe 2.4 GHz matching connects the 2G4RF_IOP pin to the on-board printed Inverted-F Antenna. The 2G4RF_ION pin is connected to ground. For higher output powers (13 dBm and above), besides the impedance matching circuitry, it is recommended to use additional harmonic filtering as well at the RF output. The targeted output power of the BRD4161A board is 19 dBm. Therefore, the RF output of the IC is connected to the antenna through a four-element impedance matching and harmonic filter circuitry.For conducted measurements the output of the matching network can also be connected to the UFL connector by removing the series R1 component between the antenna and the output of the matching and adding a 0 Ohm resistor to the R2 resistor position between the output of the matching and the UFL connector.4.3 RF Section Power SupplyOn the BRD4161A Radio Board the power supply pins of the RF section (RFVDD, PAVDD) are directly connected to the output of the on-chip DC-DC converter. This way, by default, the DC-DC converter provides 1.8 V for the entire RF section (for details, see the sche-matic of the BRD4161A).4.4 Bill of Materials for the 2.4 GHz MatchingThe Bill of Materials of the 2.4 GHz matching network of the BRD4161A Radio Board is shown in the following table.| Smart. Connected. Energy-friendly.Rev. 1.00 | 5Table 4.1. Bill of Materials for the BRD4161A 2.4GHz RF Matching Network4.5 Inverted-F AntennaThe BRD4161A Radio Board includes an on-board printed Inverted-F Antenna tuned for the 2.4 GHz band. Due to the design restric-tions of the Radio Board, the input of the antenna and the output of the matching network can't be placed directly next to each other. As a result, a 50 Ohm transmission line was necessary to connect them. With the actual line length the impedance of the antenna at the double-harmonic frequency is transformed closer to a "critical load impedance range" resulting in the radiated level of the harmonic increases.To reduce the harmonic radiation a tuning component was used between the matching network output and the antenna input. For the actual Radio Board design (with the actual transmission line length) a small value inductor was used (instead of the R1 resistor with value of 1.8 nH) to transform the impedance at the double-frequency harmonic away from the critical region while keeping the impe-dance at the funamental close to 50 Ohm. With this the suppression of the radiated double-frequency harmonic increases by approxi-mately 3-4 dB. The resulting impedance and reflection measured at the output of the matcing network are shown in the following figure. As it can be observed the impedance is close to 50 Ohm (the reflection is better than -10 dB) for the entire 2.4 GHz band.Figure 4.2. Impedance and Reflection of the Inverted-F Antenna of the BRD4161A Board Measured from the Matching Output Note: The same value and type of 1.8 nH inductor was used as the one in the matching network (L1). | Smart. Connected. Energy-friendly.Rev. 1.00 | 65. Mechanical DetailsThe BRD4161A Mighty Gecko Radio Board is illustrated in the figures below.Figure 5.1. BRD4161A Top View24 mmConnectorConnector Figure 5.2. BRD4161A Bottom ViewMechanical DetailsRev. 1.00 | 7EMC Compliance 6. EMC Compliance6.1 IntroductionCompliance of the fundamental and harmonic levels is tested against the following standards:• 2.4 GHz:•ETSI EN 300-328•FCC 15.2476.2 EMC Regulations for 2.4 GHz6.2.1 ETSI EN 300-328 Emission Limits for the 2400-2483.5 MHz BandBased on ETSI EN 300-328 the allowed maximum fundamental power for the 2400-2483.5 MHz band is 20 dBm EIRP. For the unwan-ted emissions in the 1 GHz to 12.75 GHz domain the specified limit is -30 dBm EIRP.6.2.2 FCC15.247 Emission Limits for the 2400-2483.5 MHz BandFCC 15.247 allows conducted output power up to 1 Watt (30 dBm) in the 2400-2483.5 MHz band. For spurious emmissions the limit is -20 dBc based on either conducted or radiated measurement, if the emission is not in a restricted band. The restricted bands are speci-fied in FCC 15.205. In these bands the spurious emission levels must meet the levels set out in FCC 15.209. In the range from 960 MHz to the frequency of the 5th harmonic it is defined as 0.5 mV/m at 3 m distance (equals to -41.2 dBm in EIRP).Additionally, for spurious frequencies above 1 GHz, FCC 15.35 allows duty-cycle relaxation to the regulatory limits. For the EmberZNet PRO the relaxation is 3.6 dB. Therefore, the -41.2 dBm limit can be modified to -37.6 dBm.If operating in the 2400-2483.5 MHz band the 2nd, 3rd and 5th harmonics can fall into restricted bands. As a result, for those the -37.6 dBm limit should be applied. For the 4th harmonic the -20 dBc limit should be applied.6.2.3 Applied Emission Limits for the 2.4 GHz BandThe above ETSI limits are applied both for conducted and radiated measurements.The FCC restricted band limits are radiated limits only. Besides that, Silicon Labs applies those to the conducted spectrum i.e., it is assumed that, in case of a custom board, an antenna is used which has 0 dB gain at the fundamental and the harmonic frequencies. In that theoretical case, based on the conducted measurement, the compliance with the radiated limits can be estimated.The overall applied limits are shown in the table below.Table 6.1. Applied Limits for Spurious Emissions for the 2.4 GHz Band | Smart. Connected. Energy-friendly.Rev. 1.00 | 87. RF Performance7.1 Conducted Power MeasurementsDuring measurements, the EFR32MG Radio Board was attached to a Wireless Starter Kit Mainboard which was supplied by USB. The voltage supply for the Radio Board was 3.3 V.7.1.1 Conducted Measurements in the 2.4 GHz bandThe BRD4161A board was connected directly to a Spectrum Analyzer through its UFL connector (the R1 component was removed and a 0 Ohm resistor was soldered to the R2 resistor position). During measurements, the voltage supply for the board was 3.3 V provided by the mainboard. The supply for the radio (RFVDD) was 1.8 V provided by the on-chip DC-DC converter, the supply for the power amplifier (PAVDD) was 3.3 V (for details, see the schematic of the BRD4161A). The transceiver was operated in continuous carrier transmission mode. The output power of the radio was set to 19 dBm.The typical output spectrum is shown in the following figure.Figure 7.1. Typical Output Spectrum of the BRD4161AAs it can be observed, the fundamental is slightly lower than 19 dBm limit and the strongest unwanted emission is the double-frequency harmonic and it is under the -37.6 dBm applied limit.Note: The conducted measurement is performed by connecting the on-board UFL connector to a Spectrum Analyzer through an SMA Conversion Adapter (P/N: HRMJ-U.FLP(40)). This connection itself introduces approximately 0.3 dB insertion loss.RF PerformanceRev. 1.00 | 97.2 Radiated Power MeasurementsDuring measurements, the EFR32MG Radio Board was attached to a Wireless Starter Kit Mainboard which was supplied by USB. The voltage supply for the Radio Board was 3.3 V. The radiated power was measured in an antenna chamber by rotating the DUT 360degrees with horizontal and vertical reference antenna polarizations in the XY , XZ and YZ cuts. The measurement axes are shown inthe figure below.Figure 7.2. DUT: Radio Board with the Wireless Starter Kit Mainboard (Illustration)Note: The radiated measurement results presented in this document were recorded in an unlicensed antenna chamber. Also the radi-ated power levels may change depending on the actual application (PCB size, used antenna, and so on). Therefore, the absolute levels and margins of the final application are recommended to be verified in a licensed EMC testhouse.7.2.1 Radiated Measurements in the 2.4 GHz bandFor the transmitter antenna the on-board printed Inverted-F antenna of the BRD4161A board was used (the R1 component was moun-ted). During measurements, the board was attached to a Wireless Starter Kit Mainboard (BRD4001 (Rev. A02) ) which was supplied through USB. During the measurements the voltage supply for the board was 3.3 V provided by the mainboard. The supply for the radio (RFVDD) was 1.8 V provided by the on-chip DC-DC converter, the supply for the power amplifier (PAVDD) was 3.3 V (for details, see the schematic of the BRD4161A). The transceiver was operated in continuous carrier transmission mode. The output power of the radio was set to 19 dBm based on the conducted measurement.The results are shown in the table below.Table 7.1. Maximums of the measured radiated powers in EIRP [dBm]As it can be observed, thanks to the high gain of the Inverted-F antenna, the level of the fundamental is higher than 19 dBm. The stron-gest harmonic is the double-frequency one and thanks to the additional suppression provided by the instead of the R1 resistor its level is under -50 dBm.RF PerformanceEMC Compliance Recommendations 8. EMC Compliance Recommendations8.1 Recommendations for 2.4 GHz ETSI EN 300-328 complianceAs it was shown in the previous chapter, the radiated power of the fundamental of the BRD4161A Mighty Gecko Radio Board complies with the 20 dBm limit of the ETSI EN 300-328 in case of the conducted measurement but due to the high antenna gain the radiated power is higher than the limit by 2 dB. In order to comply, the output power should be reduced (with different antennas, depending on the gain of the used antenna, the necessary reduction can be different). The harmonic emissions are under the -30 dBm limit. Although the BRD4161A Radio Board has an option for mounting a shielding can, that is not required for the compliance.8.2 Recommendations for 2.4 GHz FCC 15.247 complianceAs it was shown in the previous chapter, the radiated power of the fundamental of the BRD4161A Mighty Gecko Radio Board complies with the 30 dBm limit of the FCC 15.247. The harmonic emissions are under the -37.6 dBm applied limit both in case of the conducted and the radiated measurements. Although the BRD4161A Radio Board has an option for mounting a shielding can, that is not required for the compliance.Document Revision History 9. Document Revision HistoryTable 9.1. Document Revision HistoryBoard Revision History 10. Board Revision HistoryTable 10.1. BRD4161A Radio Board RevisionsErrata 11. ErrataThere are no known errata at present.Table of Contents1. Introduction (1)2. Radio Board Connector (2)2.1 Introduction (2)2.2 Radio Board Connector Pin Associations (2)3. Radio Board Block Summary (3)3.1 Introduction (3)3.2 Radio Board Block Diagram (3)3.3 Radio Board Block Description (3)3.3.1 Wireless MCU (3)3.3.2 LF Crystal Oscillator (LFXO) (3)3.3.3 HF Crystal Oscillator (HFXO) (3)3.3.4 Matching Network for 2.4 GHz (4)3.3.5 Inverted-F Antenna (4)3.3.6 UFL Connector (4)3.3.7 Radio Board Connectors (4)3.3.8 Capacitive Touch Slider (4)4. RF Section (5)4.1 Introduction (5)4.2 Schematic of the RF Matching Network (5)4.2.1 Description of the 2.4 GHz RF Matching (5)4.3 RF Section Power Supply (5)4.4 Bill of Materials for the 2.4 GHz Matching (5)4.5 Inverted-F Antenna (6)5. Mechanical Details (7)6. EMC Compliance (8)6.1 Introduction (8)6.2 EMC Regulations for 2.4 GHz (8)6.2.1 ETSI EN 300-328 Emission Limits for the 2400-2483.5 MHz Band (8)6.2.2 FCC15.247 Emission Limits for the 2400-2483.5 MHz Band (8)6.2.3 Applied Emission Limits for the 2.4 GHz Band (8)7. RF Performance (9)7.1 Conducted Power Measurements (9)7.1.1 Conducted Measurements in the 2.4 GHz band (9)7.2 Radiated Power Measurements (10)7.2.1 Radiated Measurements in the 2.4 GHz band (10)8. EMC Compliance Recommendations (11)8.1 Recommendations for 2.4 GHz ETSI EN 300-328 compliance (11)8.2 Recommendations for 2.4 GHz FCC 15.247 compliance (11)9. Document Revision History (12)10. Board Revision History (13)11. Errata (14)Table of Contents (15)Silicon Laboratories Inc.400 West Cesar Chavez Austin, TX 78701USASimplicity StudioOne-click access to MCU and wireless tools, documentation, software, source code libraries & more. Available for Windows, Mac and Linux!IoT Portfolio /IoTSW/HW/simplicityQuality/qualitySupport and CommunityDisclaimerSilicon Labs intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Labs products. 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