ESC50HRTI中文资料(List Unclassifed)中文数据手册「EasyDatasheet - 矽搜」

A T24C256中文资料2009-11-15 09:43特性???? 与1MHz I2C 总线兼容???? 到伏工作电压范围???? 低功耗CMOS 技术???? 写保护功能当WP 为高电平时进入写保护状态???? 64 字节页写缓冲器???? 自定时擦写周期???? 100,000 编程/擦写周期???? 可保存数据100 年???? 8 脚DIP SOIC 封装???? 温度范围商业级工业级和汽车级概述CAT24WC256 是一个256K 位串行CMOS E2PROM 内部含有32768 个字节每字节为8 位CATALYST 公司的先进CMOS 技术实质上减少了器件的功耗CAT24WC256 有一个64 字节页写缓冲器该器件通过I2C 总线接口进行操作管脚描述管脚名称功能A0 A1 地址输入SDA 串行数据/地址SCL 串行时钟WP 写保护Vcc + 电源Vss 地NC 未连接极限参数工作温度工业级-55 +125商业级0 +75贮存温度-65 +150各管脚承受电压 Vcc+Vcc 管脚承受电压 +封装功率损耗Ta=25焊接温度(10 秒) 300口输出短路电流100mA功能描述CAT24WC256 支持I2C 总线数据传送协议I2C 总线协议规定任何将数据传送到总线的器件作为发送器任何从总线接收数据的器件为接收器数据传送是由产生串行时钟和所有起始停止信号的主器件控制的CAT24WC256 是作为从器件被操作的主器件和从器件都可以作为发送器或接收器但由主器件控制传送数据发送或接收的模式管脚描述SCL 串行时钟CAT24WC256 串行时钟输入管脚用于产生器件所有数据发送或接收的时钟这是一个输入管脚SDA 串行数据/地址双向串行数据/地址管脚用于器件所有数据的发送或接收SDA 是一个开漏输出管脚可与其它开漏输出或集电极开路输出进行线或wire-ORWP 写保护当WP 脚连接到Vcc 所有内存变成写保护只能读当WP 引脚连接到Vss 或悬空允许器件进行读/写操作A0 A1 器件地址输入这些管脚为硬连线或者不连接对于单总线系统最多可寻址4 个CAT24WC256 器件参阅器件寻址当这些引脚没有连接时其默认值为0I2C 总线协议I2C 总线协议定义如下1 只有在总线空闲时才允许启动数据传送2 在数据传送过程中当时钟线为高电平时数据线必须保持稳定状态不允许有跳变时钟线为高电平时数据线的任何电平变化将被看作总线的起始或停止信号起始信号时钟线保持高电平期间数据线电平从高到低的跳变作为I2C 总线的起始信号停止信号时钟线保持高电平期间数据线电平从低到高的跳变作为I2C 总线的停止信号器件寻址主器件通过发送一个起始信号启动发送过程然后发送它所要寻址的从器件的地址8 位从器件地址的高5 位固定为10100 见图5 接下来的2 位A1 A0 为器件的地址位最多可以连接4 个器件到同一总线上这些位必须与硬连线输入脚A1 A0 相对应从器件地址的最低位作为读写控制位1表示对从器件进行读操作0 表示对从器件进行写操作在主器件发送起始信号和从器件地址字节后CAT24WC256 监视总线并当其地址与发送的从地址相符时响应一个应答信号通过SDA 线CAT24WC256 再根据读写控制位R/W 的状态进行读或写操作应答信号I2C 总线数据传送时每成功地传送一个字节数据后接收器都必须产生一个应答信号应答的器件在第9 个时钟周期时将SDA 线拉低表示其已收到一个8 位数据CAT24WC256 在接收到起始信号和从器件地址之后响应一个应答信号如果器件已选择了写操作则在每接收一个8 位字节之后响应一个应答信号当CAT24WC256 工作于读模式时在发送一个8 位数据后释放SDA 线并监视一个应答信号一旦接收到应答信号CAT24WC256 继续发送数据如主器件没有发送应答信号器件停止传送数据并等待一个停止信号写操作字节写在字节写模式下主器件发送起始信号和从器件地址信息R/W 位置0 给从器件在从器件送回应答信号后主器件发送两个8 位地址字写入CAT24WC256 的地址指针主器件在收到从器件的应答信号后再发送数据到被寻址的存储单元CAT24WC256 再次应答并在主器件产生停止信号后开始内部数据的擦写在内部擦写过程中CAT24WC256 不再应答主器件的任何请求页写在页写模式下单个写周期内CAT24WC256 最多可以写入64 个字节数据页写操作的启动和字节写一样不同在于传送了一字节数据后主器件允许继续发送63 个字节每发送一个字节后CAT24WC256 将响应一个应答位且内部低6 位地址加1 高位地址保持不变如果主器件在发送停止信号之前发送大于64 个字节地址计数器将自动翻转先前写入的数据被覆盖当所有64 字节接收完毕主器件发送停止信号内部编程周期开始此时所有接收到的数据在单个写周期内写入CAT24WC256应答查询可以利用内部写周期时禁止数据输入这一特性一旦主器件发送停止位指示主器件操作结束时CAT24WC256 启动内部写周期应答查询立即启动包括发送一个起始信号和进行写操作的从器件地址如果CAT24WC256 正在进行内部写操作将不会发送应答信号如果CAT24WC256 已经完成了内部写操作将发送一个应答信号主器件可以继续对CAT24WC256 进行下一次读写操作写保护写保护操作特性可使用户避免由于不当操作而造成对存储区域内部数据的改写当WP 管脚接高时整个寄存器区全部被保护起来而变为只可读取CAT24WC256 可以接收从器件地址和字节地址但是装置在接收到第一个数据字节后不发送应答信号从而避免寄存器区域被编程改写读操作CAT24WC256 读操作的初始化方式和写操作时一样仅把R/W 位置为1 有三种不同的读操作方式立即/当前地址读选择/随机读和连续读立即/当前地址读的地址计数器内容为最后操作字节的地址加1 也就是说如果上次读/写的操作地址为N 则立即读的地址从地址N+1 开始如果N=E 此处E=32767 则计数器将翻转到0 且继续输出数据CAT24WC256接收到从器件地址信号后R/W 位置1 它首先发送一个应答信号然后发送一个8 位字节数据主器件不需发送一个应答信号但要产生一个停止信号选择/随机读选择/随机读操作允许主器件对寄存器的任意字节进行读操作主器件首先通过发送起始信号从器件地址和它想读取的字节数据的地址执行一个伪写操作在CAT24WC256 应答之后主器件重新发送起始信号和从器件地址此时R/W 位置1 CAT24WC256 响应并发送应答信号然后输出所要求的一个8 位字节数据主器件不发送应答信号但产生一个停止信号连续读连续读操作可通过立即读或选择性读操作启动在CAT24WC256 发送完一个8 位字节数据后主器件产生一个应答信号来响应告知CAT24WC256 主器件要求更多的数据对应每个主机产生的应答信号CAT24WC256 将发送一个8 位数据字节当主器件不发送应答信号而发送停止位时结束此操作从CAT24WC256 输出的数据按顺序由N 到N+1 输出读操作时地址计数器在CAT24WC256 整个地址内增加这样整个寄存器区域在可在一个读操作内全部读出当读取的字节超过E 此处E=32767计数器将翻转到零并继续输出数据字节。

FEATURESDESCRIPTION APPLICATIONSInput Signal 0V to 4V12348765DNC(1)NC(2)TRIMDNC(1)V INTEMPGNDV OUTREF50xxSO-8, MSOP-8(3)(1) DNC = Do not connect.(2) NC = No internal connection.(3) MSOP-8 package available Q3, 2007.NOTES:REF5020,,REF5025REF5030,REF5040 REF5045,REF5050SBOS410–JUNE2007 Low-Noise,Very Low Drift,PrecisionVOLTAGE REFERENCE•LOW TEMPERATURE DRIFT:–High-Grade:3ppm/°C(max)The REF50xx is a family of low-noise,low-drift,veryhigh precision voltage references.These references –Standard-Grade:8ppm/°C(max)are capable of both sinking and sourcing,and are •HIGH ACCURACY:very robust with regard to line and load changes.–High-Grade:0.05%(max)Excellent temperature drift(3ppm/°C)and high –Standard-Grade:0.1%(max)accuracy(0.05%)are achieved using proprietary •LOW NOISE:3μV PP/V design techniques.These features,combined withvery-low noise make the REF50xx family ideal for use •HIGH OUTPUT CURRENT:±10mAin high-precision data acquisition systems.•TEMPERATURE RANGE:–40°C to+125°CEach reference voltage is available in both standard-and high-grade versions.They are offered in MSOP-8(available Q3,2007)and SO-8packages,and are •16-BIT DATA ACQUISITION SYSTEMSspecified from–40°C to+125°C.•ATE EQUIPMENT•INDUSTRIAL PROCESS CONTROL REF50xx Family•MEDICAL INSTRUMENTATION MODEL OUTPUT VOLTAGE •OPTICAL CONTROL SYSTEMS REF5020 2.048V •PRECISION INSTRUMENTATION REF5025 2.5VREF5030 3.0VREF5040 4.096VREF5045 4.5VREF5050 5.0VPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications ofTexas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.All trademarks are the property of their respective owners.ABSOLUTE MAXIMUM RATINGS (1)REF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007This integrated circuit can be damaged by ESD.Texas Instruments recommends that all integrated circuits be handled with appropriate precautions.Failure to observe proper handling and installation procedures can cause damage.ESD damage can range from subtle performance degradation to complete device failure.Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.PACKAGE/ORDERING INFORMATION (1)(1)For the most current package and ordering information see the Package Option Addendum at the end of this document,or see the TI web site at .(2)MSOP-8(DGK)package available Q3,2007.PARAMETER REF50xx UNIT Input Voltage +18V Output Short-Circuit30mA Operating Temperature Range –55to +125°C Storage Temperature Range –55to +150°C Junction Temperature (T J max)+150°C Human Body Model (HBM)3000V ESD Rating Charged Device Model (CDM)1000V(1)Stresses above these ratings may cause permanent damage.Exposure to absolute maximum conditions for extended periods may degrade device reliability.These are stress ratings only,and functional operation of the device at these or any other conditions beyond those specified is not implied.ELECTRICAL CHARACTERISTICS:PER DEVICE REF5020,,REF5025 REF5030,REF5040 REF5045,REF5050SBOS410–JUNE2007Boldface limits apply over the specified temperature range,T A=–40°C to+125°C.At T A=+25°C,I LOAD=0,C L=1μF,and V IN=(V OUT+0.2V)to18V,unless otherwise noted.PER DEVICE PARAMETER CONDITIONS MIN TYP MAX UNITREF5020(V OUT=2.048V)(1)OUTPUT VOLTAGEOutput Voltage V OUT 2.7V<V IN<18V 2.048V Initial Accuracy:High-Grade–0.050.05% Standard-Grade–0.10.1% NOISEOutput Voltage Noise f=0.1Hz to10Hz6μV PPREF5025(V OUT=2.5V)OUTPUT VOLTAGEOutput Voltage V OUT 2.5V Initial Accuracy:High-Grade–0.050.05% Standard-Grade–0.10.1% NOISEOutput Voltage Noise f=0.1Hz to10Hz7.5μV PPREF5030(V OUT=3.0V)OUTPUT VOLTAGEOutput Voltage V OUT 3.0V Initial Accuracy:High-Grade–0.050.05% Standard-Grade–0.10.1% NOISEOutput Voltage Noise f=0.1Hz to10Hz9μV PPREF5040(V OUT=4.096V)OUTPUT VOLTAGEOutput Voltage V OUT 4.096V Initial Accuracy:High-Grade–0.050.05% Standard-Grade–0.10.1% NOISEOutput Voltage Noise f=0.1Hz to10Hz12μV PPREF5045(V OUT=4.5V)OUTPUT VOLTAGEOutput Voltage V OUT 4.5V Initial Accuracy:High-Grade–0.050.05% Standard-Grade–0.10.1% NOISEOutput Voltage Noise f=0.1Hz to10Hz13.5μV PPREF5050(V OUT=5.0V)OUTPUT VOLTAGEOutput Voltage V OUT 5.0V Initial Accuracy:High-Grade–0.050.05% Standard-Grade–0.10.1% NOISEOutput Voltage Noise f=0.1Hz to10Hz15μV PP (1)For V OUT≤2.5V,the minimum supply voltage is2.7V.ELECTRICAL CHARACTERISTICS:ALL DEVICESREF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007Boldface limits apply over the specified temperature range,T A =–40°C to +125°C.At T A =+25°C,I LOAD =0,C L =1μF,and V IN =(V OUT +0.2V)to 18V,unless otherwise noted.REF50xxPARAMETERCONDITIONSMIN TYP MAX UNITOUTPUT VOLTAGE TEMPERATURE DRIFT Output Voltage Temperature Drift dV OUT /dTHigh-Grade 2.53ppm/°C Standard-Grade 38ppm/°CLINE REGULATION Line Regulation dV OUT /dV INREF5020(1)Only V IN =2.7V to 18V0.11ppm/V All Other Devices 0.11ppm/V Over Temperature 0.21ppm/V LOAD REGULATION Load Regulation dV OUT /d ILOAD–10mA <I LOAD <+10mA,V IN =V OUT +0.75V2030ppm/mA Over Temperature 50ppm/mA SHORT-CIRCUIT CURRENT Short-Circuit Current I SC V OUT =025mA TEMP PIN Voltage OutputAt T A =+25°C575mV Temperature Sensitivity 2.64mV/°C TURN-ON SETTLING TIME Turn-On Settling Time To 0.1%with C L =1μF200μsPOWER SUPPLY Supply Voltage V SSee Note(1)V OUT +0.2(1)18V Quiescent Current 0.81mA Over Temperature 1.2mATEMPERATURE RANGE Specified Range –40+125°C Operating Range –55+125°CThermal Resistance θJAMSOP-8150°C/W SO-8150°C/W(1)For V OUT ≤2.5V,the minimal supply voltage is 2.7V.TYPICAL CHARACTERISTICS0.20.50.71.01.21.51.72.02.22.52.73.03.23.53.74.04.24.54.75.0Drift (ppm/C)°P o p u l a t i o n (%)0.51.01.52.02.53.03.54.04.55.05.56.06.57.07.58.0Drift (ppm/C)°P o p u l a t i o n (%)-50-25T emperature (C)°0.050.040.030.020.010-0.01-0.02-0.03-0.04-0.05O u t p u tV o l t a g e A c c u r a c y (%)125255075100-0.0-0.0-0.0-0.0-0.00.00.00.00.00.0Drift (ppm/C)°P o p u l a t i o n (%)10Frequency (Hz)160140120100806040200P S R R (d B )100k1001k10k-15-10-5Load Current (mA)0.80.70.60.50.40.30.20.10D r o p o u t V o l t a g e (V )150510+125C°+25C °-°40CREF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007At T A =+25°C,I LOAD =0,and V S =V OUT +0.2V,unless otherwise noted.For V OUT ≤2.5V,the minimum supply voltage is 2.7V.TEMPERATURE DRIFTTEMPERATURE DRIFT (0°C to +85°C)(–40°C to +125°C)Figure 1.Figure 2.OUTPUT VOLTAGE OUTPUT VOLTAGE ACCURACYINITIAL ACCURACYvs TEMPERATUREFigure 3.Figure 4.POWER-SUPPLY REJECTION RATIOvs FREQUENCYDROPOUT VOLTAGE vs LOAD CURRENTFigure 5.Figure 6.-10-5Load Current (mA)2.501252.501002.500752.500502.500252.500002.499752.499502.499252.499002.49875O u t p u t V o l t a g e (V )105+125C°+25C°-°40C -50-25T emperature (C)°0.90.80.70.60.50.40.3T E M P P i n O u t p u t V o l t a g e (V )125255075100-50-25T emperature (C)°10501000950900850800750700650600Q u i e s c e n t C u r r e n t (m A )125255075100-50-25T emperature (C)°0.50.40.30.20.10-0.1-0.2-0.3-0.4-0.5L i n e R e g u l a t i o n (p p m /V )1252550751001s/div1V /d i vm -50-25T emperature (C)°35302520151050S h o r t -C i r c u i t C u r r e n t (m A )125255075100REF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007TYPICAL CHARACTERISTICS (continued)At T A =+25°C,I LOAD =0,and V S =V OUT +0.2V,unless otherwise noted.For V OUT ≤2.5V,the minimum supply voltage is 2.7V.REF5025OUTPUT VOLTAGETEMP PIN OUTPUT VOLTAGEvs LOAD CURRENTvs TEMPERATUREFigure 7.Figure 8.QUIESCENT CURRENT LINE REGULATION vs TEMPERATUREvs TEMPERATUREFigure 9.Figure 10.SHORT-CIRCUIT CURRENTvs TEMPERATURENOISEFigure 11.Figure 12.40s/div m 2V/div1V/divV OUTV IN400s/divm 5V/div1V/divV OUTV IN20s/div m -1mA-1mA+1mAI LOADV OUT5mV/div1mA/div20s/divm -10mA+10mA+10mAI LOAD V OUT2mV/div10mA/div100s/div m -1mA-1mA+1mAI LOAD V OUT5mV/div1mA/div100s/divm -10mA-10mA+10mAI LOAD V OUT2mV/div10mA/divREF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007TYPICAL CHARACTERISTICS (continued)At T A =+25°C,I LOAD =0,and V S =V OUT +0.2V,unless otherwise noted.For V OUT ≤2.5V,the minimum supply voltage is 2.7V.STARTUPSTARTUP(REF5025,C =1μF)(REF5025,C =10μF)Figure 13.Figure 14.LOAD TRANSIENT LOAD TRANSIENT (C L =1μF,I OUT =1mA)(C L =1μF,I OUT =10mA)Figure 15.Figure 16.LOAD TRANSIENT LOAD TRANSIENT (C L =10μF,I OUT =1mA)(C L =10μF,I OUT =10mA)Figure 17.Figure 18.20m s/div V OUTV IN5mV/div500mV/div100s/divm V OUTV IN5mV/div500mV/divREF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007TYPICAL CHARACTERISTICS (continued)At T A =+25°C,I LOAD =0,and V S =V OUT +0.2V,unless otherwise noted.For V OUT ≤2.5V,the minimum supply voltage is 2.7V.LINE TRANSIENTLINE TRANSIENT (C L =1μF)(C L =10μF)Figure 19.Figure 20.APPLICATION INFORMATIONSUPPLY VOLTAGEOUTPUT ADJUSTMENT (TRIM Pin)BASIC CONNECTIONSTEMPERATURE DRIFTDrift +ǒVOUTMAX*V OUTMINV OUT Temp RangeǓ106(ppm)(1)REF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007The REF50xx is family of low-noise,precision bandgap voltage references that are specifically designed for excellent initial voltage accuracy and The REF50xx family of voltage references features drift.Figure 21shows a simplified block diagram of extremely low dropout voltage.With the exception of the REF50xx.the REF5020,which has a minimum supply requirement of 2.7V,these references can be operated with a supply of 200mV above the output voltage in an unloaded condition.For loaded conditions,a typical dropout voltage versus load plot is shown in Figure 6of the Typical Characteristics.The REF50xx provides a very accurate voltage output.However,V OUT can be adjusted from the nominal value for the purpose of trimming system errors by configuring the TRIM pin (pin 5).The TRIM pin provides for adjustment of the voltage at V OUT over a ±15mV range.Figure 23shows a typical circuit using the TRIM pin to adjust V OUT .When using this technique,the temperature coefficients of the resistors can degrade the temperature drift at the output.Figure 21.REF50xx Simplified Block DiagramFigure 22shows the typical connections for the REF50xx.A supply bypass capacitor ranging between 1μF to 10μF is recommended.A 1μF to 50μF,low-ESR output capacitor (C L )must be connected to V OUT .Figure 23.V OUT Adjustment Using the TRIM PinThe REF50xx is designed for minimal drift error,which is defined as the change in output voltage over temperature.The drift is calculated using the box method,as described by the following equation:Figure 22.Basic ConnectionsThe REF50xx features a maximum drift coefficient of 3ppm/°C for the high-grade version,and 8ppm/°C for the standard-grade.TEMPERATURE MONITORINGPOWER DISSIPATIONNOISE PERFORMANCEREF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007The temperature output terminal (TEMP,pin 3)The REF50xx family is specified to deliver current provides a temperature-dependent voltage output loads of ±10mA over the specified input voltage with approximately 60k Ωsource impedance.As seen range.The temperature of the device increases in Figure 8,the output voltage follows the nominal according to the equation:relationship:T J =T A +P D ×θJAV TEMPPIN=509mV +2.64×T(°C)Where:T J =Junction temperature (°C)This pin indicates general chip temperature,accurate to approximately ±15°C.Although it is not generally T A =Ambient temperature (°C)suitable for accurate temperature measurements,it P D =Power dissipated (W)can be used to indicate temperature changes or for θJA =Junction-to-ambient thermal resistance temperature compensation of analog circuitry.A (°C/W)temperature change of 30°C corresponds to an approximate 79mV change in voltage at the TEMP The REF50xx junction temperature must not exceed pin.the absolute maximum rating of +150°C.The TEMP pin has high output impedance (see Figure 21).Loading this pin with a low-impedance circuit induces a measurement error;however,it does Typical 0.1Hz to 10Hz voltage noise for each member not have any effect on V OUT accuracy.To avoid of the REF50xx family is specified in the Electrical errors caused by low-impedance loading,buffer the Characteristics:Per Device table.The noise voltage TEMP pin output with a suitable low-temperature drift increases with output voltage and operating op amp,such as the OPA333,OPA335,or OPA376,temperature.Additional filtering can be used to as shown in Figure 24.improve output noise levels,although care should be taken to ensure the output impedance does not degrade performance.Figure 24.Buffering the TEMP Pin OutputAPPLICATION CIRCUITSDATA ACQUISITIONNEGATIVE REFERENCE VOLTAGEREF5020,,REF5025REF5030,REF5040REF5045,REF5050SBOS410–JUNE 2007Data acquisition systems often require stable voltage For applications requiring a negative and positive references to maintain accuracy.The REF50xx family reference voltage,the REF50xx and OPA735can be features low noise,very low drift,and high initial used to provide a dual-supply reference from a 5V accuracy for high-performance data converters.supply.Figure 25shows the REF5025used to Figure 26shows the REF5040in a basic data provide a 2.5V supply reference voltage.The low drift acquisition system.performance of the REF50xx complements the low offset voltage and zero drift of the OPA735to provide an accurate solution for split-supply applications.Care must be taken to match the temperature coefficients of R 1and R 2.Figure 26.Basic Data Acquisition SystemFigure 25.The REF5025and OPA735Create Positive and Negative Reference VoltagesPACKAGING INFORMATIONOrderableDevice Status (1)Package Type Package DrawingPins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)REF5020AID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5020AIDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5020AIDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5020AIDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5020ID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5020IDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5020IDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5020IDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5025AID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5025AIDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5025AIDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5025AIDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5025ID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5025IDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5025IDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5025IDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5030AID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5030AIDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5030AIDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5030AIDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5030ID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5030IDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5030IDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5030IDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5040AIDACTIVESOICD875Green (RoHS &no Sb/Br)CU NIPDAULevel-2-260C-1YEAR12-Oct-2007Orderable Device Status (1)Package Type Package DrawingPins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)REF5040AIDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5040AIDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5040AIDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5040ID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5040IDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5040IDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5040IDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5045AID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5045AIDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5045AIDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5045AIDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5045ID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5045IDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5045IDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5045IDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5050AID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5050AIDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5050AIDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5050AIDRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)Call TI Level-2-260C-1YEAR REF5050ID ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5050IDG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5050IDR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR REF5050IDRG4ACTIVESOICD82500Green (RoHS &no Sb/Br)CU NIPDAULevel-2-260C-1YEAR(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.12-Oct-2007OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -The planned eco-friendly classification:Pb-Free (RoHS),Pb-Free (RoHS Exempt),or Green (RoHS &no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free (RoHS Exempt):This component has a RoHS exemption for either 1)lead-based flip-chip solder bumps used between the die and package,or 2)lead-based die adhesive used between the die and leadframe.The component is otherwise considered Pb-Free (RoHS compatible)as defined above.Green (RoHS &no Sb/Br):TI defines "Green"to mean Pb-Free (RoHS compatible),and free of Bromine (Br)and Antimony (Sb)based flame retardants (Br or Sb do not exceed 0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annualbasis.12-Oct-2007TAPE AND REEL BOXINFORMATIONDevicePackage Pins SiteReel Diameter (mm)Reel Width (mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant REF5020AIDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5020IDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5025AIDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5025IDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5030AIDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5030IDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5040AIDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5040IDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5045AIDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5045IDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5050AIDR D 8SITE 4133012 6.4 5.2 2.1812Q1REF5050IDRD8SITE 41330126.45.22.1812Q17-Nov-2007DevicePackagePins Site Length (mm)Width (mm)Height (mm)REF5020AIDR D 8SITE 41346.0346.029.0REF5020IDR D 8SITE 41346.0346.029.0REF5025AIDR D 8SITE 41346.0346.029.0REF5025IDR D 8SITE 41346.0346.029.0REF5030AIDR D 8SITE 41346.0346.029.0REF5030IDR D 8SITE 41346.0346.029.0REF5040AIDR D 8SITE 41346.0346.029.0REF5040IDR D 8SITE 41346.0346.029.0REF5045AIDR D 8SITE 41346.0346.029.0REF5045IDR D 8SITE 41346.0346.029.0REF5050AIDR D 8SITE 41346.0346.029.0REF5050IDRD8SITE 41346.0346.029.07-Nov-2007IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,modifications,enhancements, improvements,and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty.Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty.Except where mandated by government requirements,testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design.Customers are responsible for their products and applications using TI components.To minimize the risks associated with customer products and applications,customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license,either express or implied,is granted under any TI patent right,copyright,mask work right,or other TI intellectual property right relating to any combination,machine,or process in which TI products or services are rmation published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement e of such information may require a license from a third party under the patents or other intellectual property of the third party,or a license from TI under the patents or other intellectual property of TI. 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北京大明五洲eSafe E用户手册V 1.04编写说明标题：《北京大明五洲eSafe E用户手册》描述：本文档描述的是北京大明五洲eSafe E用户手册类别：用户手册编号：<由文档管理员填写编号>密级：公开建立日期：2005年03月10日修改日期：2006年02月24日讨论：撰稿：段晓毅审核：存放位置：权限密码：编辑软件：Microsoft Word 2000 中文版附件文档：1 引言 (6)1.1编写目的 (6)1.2内容简介 (6)1.3缩写词 (6)1.4参考资料 (7)2 北京大明五洲eSafe E COS介绍 (9)2.1硬件性能 (9)2.2复位应答 (9)2.2.1 命令格式 (9)2.2.2 响应格式 (10)2.2.3 数据命令传输方式 (10)3 文件系统 (11)3.1文件系统的组织结构 (11)3.2主控文件(Master File, MF) (11)3.3专用文件（Dedicated File, DF） (12)3.4基本文件(Elementary File, EF) (12)3.4.1 二进制结构 (12)3.4.2 ATR文件 (12)3.4.3 RSA公钥文件 (13)3.4.4 RSA私钥文件 (13)3.4.5 对称密钥密钥文件 (13)4 安全管理 (15)4.1安全机制 (15)4.2数据交换模式 (16)4.2.1 明文模式 (16)4.2.2 校验模式 (16)4.2.3 密文校验模式 (17)4.3数据加密/解密方法 (17)4.3.1 DES/TRIDES算法 (17)4.3.2 SSF33算法 (24)5 指令集和返回码 (29)5.1指令集 (29)5.2返回码定义 (30)6 指令详解 (33)6.1Create File (33)6.1.1 建立MF时命令数据域如下表所示： (34)6.1.2 建立DF时命令数据域如下表所示： (34)6.1.3 建立EF时命令数据域如下所示： (35)6.1.4 文件类型的定义 (36)6.1.5 可能的返回码 (37)6.1.6 示例： (37)6.2Delete File (38)6.2.1 可能的返回码 (38)6.3Write Key (39)6.3.1 修改密钥时的数据域 (40)6.3.2 可能返回的状态码 (40)6.4Select File (42)6.4.1 响应报文数据域 (42)6.4.2 可能的返回码 (43)6.5Read Binary (44)6.5.1 状态码 (45)6.6Update Binary (46)6.6.1 状态码 (46)6.7Get Info (48)6.7.1 P1P2参数详解 (48)6.7.2 可能的返回码 (49)6.8Clear Up (50)6.8.1 可能的返回码 (50)6.9Set Property (51)6.9.1 可能的返回码： (51)6.10Verify PIN (52)6.10.1 可能的返回码 (52)6.10.2 指令结果 (53)6.11Change PIN (54)6.11.1 指令结果 (54)6.11.2 可能的返回码 (55)6.12Reload PIN (56)6.12.1 命令报文数据域 (56)6.12.2 指令结果 (56)6.12.3 可能的返回码 (57)6.13PIN Change/Unblock (58)6.13.1 命令报文数据域 (58)6.13.2 指令结果 (58)6.13.3 可能的返回码 (59)6.14Card Block (60)6.14.1 可能的返回码 (60)6.15Application Block (62)6.15.1 可能的返回码 (62)6.16Application Unblock (64)6.16.1 可能的返回码 (64)6.17External Authentication (65)6.17.1 命令报文数据域 (65)6.17.2 可能的返回码 (65)6.18Internal Authentication (67)6.19Get Challenge (68)6.19.1 响应报文数据域 (68)6.19.2 可能的返回码 (68)6.19.3 示例 (68)6.20Get Response (70)6.20.1 响应报文数据域 (70)6.20.2 可能的返回码 (70)6.21Generate RSA Keypair (71)6.21.1 可能的返回码： (72)6.22RSA Sign/Decrypt (73)6.22.1 可能的返回码： (73)6.23RSA Verify/Encrypt (75)6.23.1 可能的返回码 (75)6.24Write RSA Key (76)6.24.1 状态码： (77)6.25Read RSA Key (78)6.25.1 状态码： (78)6.26EncryptInit (80)6.26.1 状态码： (81)6.27EncryptUpdate (82)6.27.1 (82)6.28EncryptFinal (84)6.28.1 状态码： (84)6.29Read Key Info (85)6.29.1 可能的返回码 (85)6.30Write Key File (86)6.30.1 数据域定义如下： (86)6.30.2 可能的返回码 (87)1引言1.1编写目的北京大明五洲eSafe E是根据在PKI实现运用所需而开发的一款安全COS，此手册为用此IC卡芯片开发的用户提供。

MEM50使用说明书一、安全说明在试图安装、操作或维护此设备之前，请仔细阅读说明书，拿到它并逐步熟悉这种仪表。

以下特殊信息可能贯穿出现在本说明书或在设备上，用来警示潜在的危险或对于阐释和规定操作规程的信息提请注意。

附有这种安全标志示意周围存在着电力危险，假若未遵照一定的指令将会导致人身伤害。

这是安全警告标志，用来警告你潜在人身伤害和危险，遵照此标志后的所有安全信息，避免可能的伤害或死亡。

此标志指示临近于危险位置，如不加以避免将导致死亡或严重伤害。

在维护和检修之前，设备必须断电并接地。

维护工作只能由有资质的人员进行。

本文件不是一本适用于未受训者的说明书，在其正常使用范围之外所引起的问题，本公司概不负责。

二、包装清单（列表所有产品）1） MEM50仪表包括：MEM50表，附件(AO,485接线端子)，用户手册（含保修卡）2） MEM50显示单元包括：MEM50显示单元，附件（连接线），用户手册（含保修卡）三、保修卡四、技术参数和规格额定输入测量精度注：测试条件——频率50Hz,温度20℃，湿度35%，电源电压230Vac五、订货须知详细订货要求参考样本订货说明。

六、使用说明目录1. 简介随着电力系统及现代工业的发展，为满足电力系统发电厂、变电站、工厂和民用电能测量和管理以及电能质量分析的需要，结合网络化智能开关柜的系统设计要求和趋势，澳大利亚通用电气设备有限公司（AGE）推出了新一代的MEM50系列智能型多功能电能管理测控仪表（简称MEM50）。

MEM50系列多功能仪表采用最现代的微处理器和数字信号处理技术（DSP）设计而成。

能够测量三相电压、电流、频率、功率因数、功率、电度等基本电参数，并具有0-31次谐波分析、采样录波、SOE、继电保护以及分时统计等功能。

该仪表可通过现场总线网络连接到SCADA、PLC或DCS系统中去；配合智能开关柜设计，具有开关量输入输出和模拟量输出能力，除了可以通过上位机遥信遥测遥控外，还可以通过显示仪表或上位软机软件对仪表进行编程，定义开关量联锁输出进行控制。

CIRCUIT MAPPERSYSTEMINSTRUCTION MANUAL CMT24DS / CMT42DS / CMT84DSTASCO, INC.THIS TESTER IS DESIGNED FOR USEONLY BY QUALIFIED ELECTRICIANS.IMPORTANT SAFETY WARNINGSGENERAL SPECIFICATIONS CMT24DS/CMT42DS/CMT84DSTHANKS FOR CHOOSING THE CIRCUIT MAPPER SYSTEMThis unique product uses new technology to perform functions never before offered in an electrical tester. This is the first device of its kind that maps multiple branch circuits of wiring systems concurrently. With todays sensitive electronic equipment, simply turning breakers off and on is no longer a viable option. Even modern circuit tracers typically trace only one branch circuit at a time. The Circuit Mapper transmitter connects to lines at the panel rather than at the end of the branch circuit. The Receiver displays the corresponding circuit number through digital signal processing, so you know exactly to which breakers the transmitter leads are connected. There is no time wasted comparing signals or looking for the strongest signal. Microprocessors have been used in this product to increase simplicity of use. Using the Circuit Mapper system will greatly reduce man-hours spent locating branch connections of electrical circuits!HOW THE CIRCUIT MAPPER SYSTEM OPERATESYour Circuit Mapper is composed of two primary components: the Transmitter and the Receiver. A second Transmitter, the CMT84DT, is used when tracing more than 42 circuits in a single panel, or when tracing 2 separate panels.The Transmitter ports are connected to the appropriate circuits using non-contact inductive clamps (CT clamps). The CT clamps are secured around the insulated wire, greatly reducing the risk of shock by eliminating the need for a live voltage direct connection. CT clamps are completely interchangeable as the digital signals are supplied by the Transmitter with a different numerical code being generated by each output jack. The Transmitter sends distinct digital signals to individual branch circuits on powered and unpowered systems! The Transmitter indicates unit power, low battery state and signal output is easy to check by inserting the Receiver probe into the CT clamp.The Transmitter first connects directly to the supply conductors, in the electrical panel, using phase (alligator) clips. This connection provides filtering that reduces noise or stray signals between phases, neutral or ground.The Receiver display indicates corresponding transmitter connection and a low battery condition. The Receiver is programmed to recognize the specific digital signal supplied to the line by each of the Transmitter CT clamps. The signal must repeat itself two times before the Receiver will indicate. This virtually eliminates the possibility of false readings from signal coupling. If there is no signal on the branch circuit being tested, the Receiver simply indicates two bars, .TOLL FREE CUSTOMER SERVICE 1.800.999.9952TOLL FREE CUSTOMER SERVICE 1.800.999.9952HOW TO USE THE CIRCUIT MAPPER SYSTEMThe Transmitter sends distinct digital signals through each output jack that the Receiver is programmed to recognize. The leads are connected using miniature CT clamps that connect around the insulated portion of the electrical line, so temporary Transmitter connections are safe and simple.GETTING STARTEDTRANSMITTER1. Install 9 volt Alkaline battery in both the Transmitter(s) and Receiver. Verify battery doors are securely closed after installation. Never operate units without battery doors in place as electrical shock could result.2. Push and release ON/OFF button on the Transmitter(s). The red Power LED illuminates, indicating the unit has performed a self-test and power is on. Transmitter power stays on for approximately 2 hours unless manually turned off. The two hour time-out saves battery life should the Transmitter be unintentionally left on.3. Plug one CT clamp lead into output jack labeled #1 on Transmitter face (jack #1 corresponds to circuit #1 for testing purposes). CT clamps are interchangeable and can be connected to any output jack. Any combination of output jacks can be used at the same time.CMT84DT only: Follow above step number 3 using output jack labeled #43.RECEIVER1. Push and release ON/OFF button on Receiver. Two bars illuminate on LED display indicating the unit has performed a self-test and power is on. Receiver power stays on for approximately 2 minutes after a reading has been taken unless manually turned off. The 2 minute time-out saves battery life should the Receiver be unintentionally left on.2. Turn on the Transmitter per prior instructions.Verify that CT clamp lead is plugged intotransmitter output jack #1. With the Receiverturned on, insert metal Receiver pin throughopening on CT clamp (clamp must be completelyclosed). The Receiver indicates signal recognitionusing the chasing segment animation on thedisplay. When the signal is confirmed, it then indicates , verifying both units are functioningcorrectly and ready for use.CMT84DT only: Follow above step number 3using transmitter output jack #43. The Receiverwillindicate verifying both units arefunctioning correctly and ready for use.TOLL FREE CUSTOMER SERVICE 1.800.999.9952CONNECTING THE TRANSMITTERThe Transmitter is connected to each branch circuit at the breaker panel. It then sends signals, using the CT clamps, to powered or unpowered systems. To use on an unpowered system, the main breaker or fuse must be turned off, with the individual branch circuit breakers or fuses left in the on position.The “PHASE”, “NEUT” and “GND” connections should always be used when connecting the Circuit Mapper Transmitter. Without this connection, the Transmitter signal can couple to other circuits through the neutral return, causing multiple readings. If using a second transmitter in the same panel, it is only necessary to connect one set of the phase clips. If using the CMT84DT in a separate panel, it is necessary to connect the phase clips in that panel as well.1. Carefully remove panel cover so no breakers are accidentally turned off.2. Attach Transmitter to the outside of the panel using the magnet built into the back of the unit. Do not hang Transmitter from clip leads.3. Attach the white alligator clip to the incoming neutral conductor or lug in the panel.4. Attach the green alligator clip to incoming ground conductor, lug or panel ground.5. Attach one red alligator clip to each incoming phase conductor or lug. It is normal for a spark to result from connecting the clips.NOTE:Do not attach more than one alligator clip lead to any connection point referenced above.Single phase panels will only require two red alligator clip lead connections.Ground ClipNeutral ClipPhase ClipsSingle phase shown, third phase would requirethe third phase clip to be connectedTOLL FREE CUSTOMER SERVICE 1.800.999.9952CONNECTING THE TRANSMITTER (Continued)6. Connect CT clamps to each individualbranch circuit to be traced. CT clampsmust be fully closed to properly sendsignal. It is normally easier to connectthe CT clamps to circuits beforeplugging them into the Transmitter.In some cases, the circuit wire mayneed to be bent or moved toaccommodate the CT clamp.7. Plug CT clamp leads into theTransmitter. We recommend pluggingeach CT clamp into the output number that matches the actual breaker number. It is normal for the CT clamps to hum slightly due to magnetic fields caused by AC current. If there is considerable hum check to be sure all CT clamps are fully closed.8. Turn on Transmitter. You are now ready to begin mapping the electrical systems. The Transmitter will stay on for approximately 2 hours unless manually turned off. Additional Transmitter CT clamp assemblies are available directly from the Tasco factory.NOTE:Products using switching power supplies such as battery chargers and uninterruptible power supplies in close proximity to the panel may disrupt the transmitter signal.USING THE RECEIVERThe Receiver is extremely easy to use. The metal prong should contact the conductor of the wire being tested. The prong can be plugged directly into the “hot” side of a receptacle. The prong will also reach light switch conductor screws if the cover plate is removed. This is an easy way to identify lighting circuits since it does not require an electrical contact point at the fixture.1. Turn Receiver on. Two bars illuminate on the LED display, . These bars illuminate any time the Receiver is turned on but no signal is detected. The Receiver turns itself off if unused for more than 2 minutes to save battery life.2. Touch prong to conductor of circuit to be identified for at least three seconds. The digital readout indicates that it has locked on to the signal by displaying the chasingsegment animation. Continue prong contact until the corresponding CT clampTOLL FREE CUSTOMER SERVICE 1.800.999.9952number is shown on the LED display. If more than one circuit breaker is connected to the same test point, the Receiver will indicate multiple connections. If the direction of animation changes, it is a sign that interference was found on the line, likely due to a battery charger or UPS, that caused the receiver to read a secondary channel. Continue to make contact until the signal is displayed.3. If direct conductor contact is not possible, the Receiver has a built in amplifier that can read through most electrical wiring insulation. Hold the square Receiver tip (not prong) against the insulated wire to be tested. Push and hold the ON/OFF button until a reading is indicated. Continue holding button for an additional two seconds to verify a single circuit reading.4. Use the “Map Pad” or your own form to document which breakers are feeding each b ranch circuit. Additional “Map Pads” and Receiver prongs are available directly from the Tasco factory.Multiple receivers may be used at the same time with any of the transmitter models, increasing the efficiency of the panel mapping process. Additional receivers are available directly from the Tasco factory.ASSEMBLED IN THE USA BY:TASCO, INC.2895 West Oxford Avenue, #7Englewood, Colorado 80110303.762.99521.800.999.9952 Manual Rev. C。

Pilot Operated Pressure Relief Valves907B阀帝工程走向中国市场The Curtiss-Wright Corporation was created through the merger of companies originally founded in 1929 by aviation pioneers Orville and Wilbur Wright, and Glenn Curtiss. Curtiss-Wright Flow Control Corporation is a business segment of Curtiss Wright Corporation. The companies that comprise Curtiss-Wright Flow Control Corporation sup-ply the oil and gas processing markets with technological solutions that improve plant flexibility, reliability, efficiency and, most im-portantly, safety. We have a history of solving tough problems that begins with our passion for understanding the needs of our custom-ers. Add to that our unparalleled technical expertise, the highest standards of quality and a long heritage of innovative thinking. Curtiss-Wright Flow Control Corporation and its subsidiary companies have been global leaders in providing products and solutions that uniquely meet the complex needs of our industrial world.Farris Engineering, a division of Curtiss-Wright Flow Control Corporation has been at the forefront of the design, development and manufacture of spring-loaded and pilot-operated pressure relief valves since the early 1940’s. Our pressure relief valves have over a half century of proven performance provid-ing automatic and positive protection against overpressure in thousands of industrial plants and facilities worldwide. Farris’ earned reputa-tion as “The First Line Of Safety” is the result of countless Farris innovations combined with progressive engineering, sound design and high quality production.Farris provides products and solutions to worldwide customers in the Hydrocarbon Processing, Chemical and Power Industries. We provide support to all major industry segments including Engineering Contractors, Construction Companies and Procurement offices. Our pressure relief valves are used on a variety of projects including chemical plants, refineries, nuclear & fossil power plants, gas processing / LNG facilities and offshore platforms.柯蒂斯怀特公司是在1929年通过最初由航空先驱怀特兄弟和柯蒂斯的公司合并而创办。

ARCHITECT Ci8200中文操作手册美国雅培诊断产品中国部2005年1月目录第一章系统组成和检测原理 (3)第一节系统总揽 (3)第二节系统常用消耗品 (7)第三节系统主要附件 (8)第四节生化运行模块缓冲液 (8)第五节检测原理 (9)第六节系统特征 (12)第七节系统状态 (16)第八节定标 (19)第九节质量控制 (19)第十节系统设定 (19)第二章 Ci8200常规操作程序 (20)第一节启动、暂停和关机 (20)第二节登陆 (22)第三节建立和消耗库存 (22)第四节管路冲洗 (24)第五节试剂库存 (25)第六节放置 (28)第七节申请 (30)第八节运行 (30)第九节浏览申请 (31)第十节编辑申请 (31)第十一节浏览结果 (31)第十二节重运行测试 (32)第十三节释放结果 (32)第十四节保存结果 (33)第十五节传输结果 (33)第十六节不良结果 (34)第十七节打印 (34)第十八节收回 (35)第十九节质量控制 (35)第三章 Ci8200开放试剂参数设置程序 (39)第四章 Ci8200系统维护保养程序 (40)第五章 Ci8200操作简介 (44)第一章系统组成和检测原理1.1系统总览1.1.1仪器主要组成系统主要由三个部分组成：系统控制中心（SCC），运行模块（PM）和样品处理器（RSH）1.1.2系统控制中心（SCC）的标准配置17寸平面触摸式彩色显示屏，P III以上的CPU，1.44MM软盘驱动器，CD-RW可读写式光盘驱动器，标准键盘，鼠标，网络HUB，各类以太网接口，打印机等。

1.1.3运行模块的主要组份运行模块分为免疫模块和生化模块：1.1.3.1生化模块生化模块包含分样系统（主要提供样品的吸，放和确认），试剂系统（主要提供试剂的吸，放和确认）和反应检测系统（主要提供样品和试剂在反应杯中的混合，光学检测，电解质检测和反应杯的冲洗）。

除可通过SCC操作运行模块外，还可以通过机上操作面板进行一些操作：▪运行键：启动和重启动▪试剂转盘1旋转键：显示状态，并可旋转试剂转盘，便于试剂添加和更换▪试剂转盘2旋转键：显示状态，并可旋转试剂转盘，便于试剂添加和更换▪暂停键：暂停运行模块分配动作，但反应仍进行▪停止键：停止所有运行操作，但不关闭电源▪L1，L2，L3，L4键：一些仪器诊断和保养模式运行键▪显示区域：在仪器诊断和保养步骤时信息的显示1.1.3.1.1分样系统的组成和功能分样系统包括：1）机上样品转盘（LSH）：主要放置病人样品，标准品和质控品。

经济型智能螺杆ESCC50控制器使用说明书大连冰山嘉德自动化有限公司二零零九年四月目录键盘简介 (3)显示画面主画面 (4)菜单画面 (4)参数设置画面 (4)参数设置步骤 (6)测试画面介绍 (6)操作过程 (7)油加热器控制 (7)油泵控制 (7)压缩机控制 (7)增减载控制 (7)附表1 故障处理 (8)附表2 控制台元件调定值 (14)键盘简介紧急情况出现，请立即按紧急停机按钮！显示画面主画面（注：控制台上电，显示“主界面”：当前喷油温度和电机电流；无故障，显示“就绪”；有菜单画面参数设置画面按“▼”键按“确定”键按“▼”键按“▼”键按“▼”键参数设置步骤例如：按照第3页参数设置画面操作方法，设定“通讯地址”值，见下面（其余画面设定方法相同）：测试画面介绍■进入此界面后，按“确定”按键，数值闪烁，按▲▼键调整通讯地址值为“3”，按“确定”按键确认“3”，数值不闪烁，表明设置成功。

注：保持按住▲或▼按键，数值闪烁3次后，将连续变化。

操作过程油加热器控制机组上电后，如果各部分正常发现油温不满足开机条件，可以开油加热器。

按菜单键，按▲▼键使游标停留在油加热器位置，按确定键进入油加热器操作界面，按▲▼键可以使游标在开和停间切换，按确定键进行相应操作，选择“开”按“确定”键，显示“油加热运行”，表明油加热器正在运行。

选择“停”按“确定”键，显示“油加热停止”，表明油加热器已经停止。

按复位键返回主界面。

开压缩机后油加热器自动停止运行。

油泵控制机组上电后，如果各模拟量和开关量正常，可以进行开油泵操作。

主界面（其它界面可直接按复位键返回到主界面）显示“就绪”，按油泵开启键，显示“等待泵”油泵开始运行，如需停止油泵必须保证压缩机已停止运行，这时按油泵停止键，油泵停止运行。

如果出现故障停机，油泵将在30秒钟后停止运行（油泵运行反馈故障停压缩机且立即停油泵），此时画面中将显示：例如：“油压差低保护泵”，30秒钟后“泵”消失，故障解除后，按“复位”键恢复主画面。