KMM53232000CKG中文资料

MAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容________________________________________________________________Maxim Integrated Products119-0273; Rev 7; 1/07MegaBaud和UCSP是Maxim Integrated Products, Inc.的商标。

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M A X 3222/M A X 3232/M A X 3237/M A X 32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Note 1:V+ and V- can have a maximum magnitude of 7V, but their absolute difference cannot exceed 13V.V CC ...........................................................................-0.3V to +6V V+ (Note 1)...............................................................-0.3V to +7V V- (Note 1)................................................................+0.3V to -7V V+ + V- (Note 1)...................................................................+13V Input VoltagesT_IN, SHDN , EN ...................................................-0.3V to +6V MBAUD...................................................-0.3V to (V CC + 0.3V)R_IN.................................................................................±25V Output VoltagesT_OUT...........................................................................±13.2V R_OUT....................................................-0.3V to (V CC + 0.3V)Short-Circuit DurationT_OUT....................................................................ContinuousContinuous Power Dissipation (T A = +70°C)16-Pin TSSOP (derate 6.7mW/°C above +70°C).............533mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C)....696mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C)........762mW 16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)...842mW 18-Pin SO (derate 9.52mW/°C above +70°C)..............762mW 18-Pin Plastic DIP (derate 11.11mW/°C above +70°C)..889mW 20-Pin SSOP (derate 7.00mW/°C above +70°C).........559mW 20-Pin TSSOP (derate 8.0mW/°C above +70°C).............640mW 28-Pin TSSOP (derate 8.7mW/°C above +70°C).............696mW 28-Pin SSOP (derate 9.52mW/°C above +70°C).........762mW 28-Pin SO (derate 12.50mW/°C above +70°C).....................1W Operating Temperature RangesMAX32_ _C_ _.....................................................0°C to +70°C MAX32_ _E_ _ .................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CMAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容_______________________________________________________________________________________3TIMING CHARACTERISTICS—MAX3222/MAX3232/MAX3241(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)ELECTRICAL CHARACTERISTICS (continued)(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)M A X 3222/M A X 3232/M A X 3237/M A X 32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容4________________________________________________________________________________________________________________________________________________________________典型工作特性(V CC = +3.3V, 235kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)-6-5-4-3-2-101234560MAX3222/MAX3232TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )20003000100040005000246810121416182022150MAX3222/MAX3232SLEW RATEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E (V /µs )20003000100040005000510152025303540MAX3222/MAX3232SUPPLY CURRENT vs. LOAD CAPACITANCEWHEN TRANSMITTING DATALOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )20003000100040005000TIMING CHARACTERISTICS—MAX3237(V CC = +3.0V to +5.5V, C1–C4 = 0.1µF (Note 2), T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Note 2:MAX3222/MAX3232/MAX3241: C1–C4 = 0.1µF tested at 3.3V ±10%; C1 = 0.047µF, C2–C4 = 0.33µF tested at 5.0V ±10%.MAX3237: C1–C4 = 0.1µF tested at 3.3V ±5%; C1–C4 = 0.22µF tested at 3.3V ±10%; C1 = 0.047µF, C2–C4 = 0.33µF tested at 5.0V ±10%.Note 3:Transmitter input hysteresis is typically 250mV.MAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容_______________________________________________________________________________________5-7.5-5.0-2.502.55.07.50MAX3241TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )2000300010004000500046810121416182022240MAX3241SLEW RATEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E (V /µs )20003000100040005000510152025303545400MAX3241SUPPLY CURRENT vs. LOADCAPACITANCE WHEN TRANSMITTING DATALOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )20003000100040005000-7.5-5.0-2.502.55.07.50MAX3237TRANSMITTER OUTPUT VOLTAGE vs. LOAD CAPACITANCE (MBAUD = GND)LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )200030001000400050000102030504060700MAX3237SLEW RATE vs. LOAD CAPACITANCE(MBAUD = V CC )LOAD CAPACITANCE (pF)S L E W R A T E (V /µs )500100015002000-7.5-5.0-2.502.55.07.50MAX3237TRANSMITTER OUTPUT VOLTAGE vs. LOAD CAPACITANCE (MBAUD = V CC )LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )5001000150020001020304050600MAX3237SUPPLY CURRENT vs.LOAD CAPACITANCE (MBAUD = GND)LOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )200030001000400050000246810120MAX3237SLEW RATE vs. LOAD CAPACITANCE(MBAUD = GND)LOAD CAPACITANCE (pF)S L E W R A T E (V /µs )2000300010004000500010302040506070MAX3237SKEW vs. LOAD CAPACITANCE(t PLH - t PHL )LOAD CAPACITANCE (pF)1000150050020002500____________________________________________________________________典型工作特性(续)(V CC = +3.3V, 235kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)M A X 3222/M A X 3232/M A X 3237/M A X 32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容6_________________________________________________________________________________________________________________________________________________________________引脚说明MAX3222/MAX3232/MAX3237/MAX32413.0V至5.5V、低功耗、1Mbps、真RS-232收发器，使用四只0.1µF外部电容_______________________________________________________________________________________7_______________________________详细说明双电荷泵电压转换器MAX3222/MAX3232/MAX3237/MAX3241的内部电源由两路稳压型电荷泵组成，只要输入电压(V CC )在3.0V至5.5V范围以内，即可提供+5.5V (倍压电荷泵)和-5.5V (反相电荷泵)输出电压。

53225SOLID-STATE POWER CONTROLLER (SSPC)MiiHYBRID MICROELECTRONICS PRODUCTS DIVISIONFeatures:•I2t output trip•Output trip status•1000 VRMS Isolation•Power FET OutputLow On-state Resistance•Full Military compliance•Low control power consumption (3 mA @ 5 V typical)•125ºC screening available Applications:•Logic controlled circuit breakers • Dynamicloadswitching• Powerdistributionswitch • SupplysourceswitchingDESCRIPTIONThe 53225 is a military SPST solid-state relay. This light-weight device is mechanically resistant and electrically immune to contact-related problems inherent in mechanical relays.An I2t current let-through curve assures power supply, relay, and load protection from thermal stress yet provides large momentary currents to charge capacitive loads or start inductive loads. Any current versus time above the I2t curve initiates a trip condition and a status output is generated.Effective isolation of 1000 VRMS is provided from all inputs, case and outputs through magnetic coupling. Magnetic coupling contributes to very low control power, repeatable turn-on/turn-off times, and no output stage currents to provide status signals.Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.ELECTRICAL CHARACTERISTICS(-55°C ≤ TA ≤ 85°C, V BIAS = 5 V, V OUT + = 28 V, I OUT = 1.5 A unless otherwise noted)CHARACTERISTIC CONDITION MIN MAX UNITS 2 Terminal Configuration (see Fig. 2)Input Current5MADC Turn off voltage (V IN) 1.5VDC Turn on voltage (V IN) 3.8VDC Bias supply voltage range46VDC 3 Terminal Configuration (see Fig. 1)Control input Current V CONT = 5 VDC250µADC Control voltage range06VDC Bias supply voltage range0.56VDC Bias supply current5mADC Turn off voltage (V CONTROL) 3.9VDC Turn on voltage (V CONTROL)0.3VDC Noise Margin V OFF – V ON0.5VDCContinuous off leakage current (not tripped)V OUT+ = 60 VDCV OUT- = Ground150µADCOutput on voltage drop I L = 1.5 A0.45VDC Continuous operating load voltage60VDC Transient blocking voltage@ 1.0 mA80VDC On resistance RDS (ON)I LOAD = 100 mADC0.30OHMS Turn on time 3.0MS Turn off time 1.0MS Operating frequency20HZ DV/DT100V/µM Electrical system spike±600Peak Output Capacitance25 VDC, 100 kHz1000PF Input to output capacitance15PF Dielectric strength@ 1.0 mA maximum leakage1000VAC Insulation resistance@ 500 VDC, TA – 25°C103OHMSSurge Current (see Fig. 4)Guaranteed no trip@ 10 A surge70 Typ.MSTrip Reset Time Remove short / overload& Cycle input50MsStatus Output SpecificationStatus Supply Voltage (open Collector)5.032VDC Status off leakage current VS = 15 VDC4µADC Status on voltage I STATUS = 5 MA0.4VDC High-To-Low Transition Time I STATUS = 5 MA 1.0MS Notes:1. Input transition should be ≤ MSEC duration and input drive should be “bounceless contact” type.Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.Package DimensionsPIN FUNCTION1Control3Ground9V OUT -12V OUT +16Status22V BIASMicropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.53225 SOLID-STATE POWER CONTROLLER (SSPC)TRIP STATUSSA - Three - Terminal ConnectionFigure 1V CONTROLV BIASV STATUSV BIAS V Figure 2B - Two - Terminal Connection(OFF)(ON)(OFF)OUTPUT (ON)STATUSTiming Diagram (3 Terminal Connection)Figure 353225 SOLID-STATE POWER CONTROLLER (SSPC)Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.。

532224是是云南宜威县云南身份证号前六位对照表530000,云南省530100,昆明市530101,盘龙区530102,五华区530123,安宁市530124,富民县530125,宜良县530127,嵩明县530128,禄劝县530129,滇池530131,寻甸县530111,官渡区530112,西山区530121,呈贡县530122,晋宁县530126,石林县530200,东川市530201,东川市辖区530202,东川区532100,昭通地区532101,昭通市532122,鲁甸县532123,巧家县532124,盐津县532129,彝良县532130,威信县532227,师宗县532228,陆良县532233,会泽县532234,沾益县532323,牟定县532324,南华县532325,姚安县532329,武定县532331,禄丰县532400,玉溪市532401,红塔区532424,通海县532425,华宁县532426,易门县532502,开远市532522,蒙自县532527,泸西县532528,元阳县532125,大关县532126,永善县532127,绥江县532128,镇雄县532131,水富县532200,曲靖市532201,麒麟区532223,马龙县532224,宣威市532225,富源县532226,罗平县532300,楚雄州532301,楚雄市532322,双柏县532326,大姚县532327,永仁县532328,元谋县532422,江川县532423,澄江县532427,峨山县532428,新平县532429,元江县532500,红河州532501,个旧市532523,屏边县532524,建水县532525,石屏县532526,弥勒县532529,红河县532530,金平县532531,绿春县532622,砚山县532623,西畴县532624,麻栗坡县532700,思茅地区532721,思茅市532722,普洱县532723,墨江县532724,景谷县532725,景东县532901,大理市532922,漾濞县532923,祥云县532924,宾川县532925,弥渡县532926,南涧县532927,巍山县532928,永平县532929,云龙县土地管理局532930,洱源县532931,云南省剑川县532932,鹤庆县533000,保山地区533001,保山市533024,龙陵县533025,昌宁县533123,盈江县533124,陇川县533125,瑞丽市533200,丽江地区533221,丽江县533222,永胜县533223,华坪县533224,宁蒗县533523,云县533524,永德县533525,镇康县533526,双江县533527,耿马县532532,河口县532600,文山州532621,文山县532625,马关县532626,丘北县532627,广南县532628,富宁县532727,江城县532728,孟连县532729,澜沧县532730,西盟县532800,版纳州532801,景洪市532822,勐海县532900,大理州533022,施甸县533023,腾冲县533100,德宏州533101,畹町市533121,潞西县533122,梁河县533300,怒江州533321,泸水县533323,福贡县533324,贡山县533325,兰坪县533400,迪庆州533421,中甸县533422,德钦县533423,维西县533500,临沧地区533521,临沧县533522,凤庆县533528,沧源县。

注：1.“在用工作计量器具”指在生产或经营中使用的工作计量器具，包括性能不满足要求的计量器具；包括所有用于生产经营的能直接或2.“通用”指列入《中华人民共和国依法管理的计量器具目录》（见附件1）中的计量器具；“石油专用”指未列入《中华人民共和国3.“送检”指送到本地区公司以外的其它检定或校准机构进行检定或校准的计量器具。

“自检”指由本公司内部的计量检定或校准机构进行检定或校准的计量器具。

4.“强制检定”指列入《中华人民共和国强制检定的工作计量器具明细目录》（见附件3）的计量器具。

5.“过程监控计量器具”仅指用于生产工艺过程监视和控制的计量器具。

6.“能源计量器具”指用于计量输入输出各级用能组织的能源的计量器具，包括用于计量各级用能组织贸易、消7.能源计量器具所属用能组织包括用能单位、次级用能单位、基本用能单元、独立用能设备，能源计量器具在承担多级用能组织计量功 “用能单位”指具有独立法人地位的企业或具有独立核算能力的地区公司。

“次级用能单位”是用能单位所属的能源核算单位，在用能单位和基本用能单元之间可以有一级、二级、或三级次级用能单位，也可 “基本用能单元”指次级用能单位所属的可独立进行能源计量考核的装置、系统、工序、工段、站队等，或集中管理同类用能设备的“独立用能设备”指不能纳入基本用能单元管理的，并且按照GB/T20901规定能源消耗达到限定值的主要用能设备。

能源消耗具体限9.加油机也是计量器具，应在统计之列；地球物理勘探业务使用的地震检波器数量庞大，暂不列入统计范围。

10.红色为必填项，必须填写；浅蓝色为选择项，只能在模板提供的选项中选择；紫色为日期格式（例：2011-1-1或2011/01/01。

注意所有用于生产经营的能直接或间接测出被测对象量值的装置、仪器仪表、量具和用于统一量值的标准物质，不包括水、电、气等入石油专用”指未列入《中华人民共和国依法管理的计量器具目录》，在石油物探、钻井、测井、录井、井下、采油、管材检测等业务领域使用，并列入《用能组织贸易、消耗、生产、流转的能源的计量器具。

Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.5320953210 SPDT SOLID-STATE RELAYS 53211 High Power AC/DC SwitchingMiiMICROCIRCUITS PRODUCTSDIVISIONFeatures:• Replacements for M30-1, M30-3, M30-4 • SPDT, Break-Before-Make• Up to 1500 V RMS optical isolation• Output voltage up to ±320 VDC (53211) • Power FET output low on-state resistance• Full military temperature operation: -55ºC to +125ºC• Military environmental screening availableApplications:• High power switching • Line drivers • Servo control• Harsh environment • Load control• General purpose switchingDESCRIPTIONThe 53209, 53210, and 53211 are military SPDT high power, solid-state relays. These light-weight devices are resistant to damage from shock and vibration, and are immune to contact-related problems (contamination, arcing) associated with mechanical equivalents.Optical coupling between the input and output stages provides effective isolation up to 1500 volts AC RMS. Power FET outputs eliminate bipolar offset, and minimize output voltage drop for high current capability.The control logic is CMOS compatible, and will accommodate bias supplies ranging between 4 and 16 VDC. A TTL input driver with pull-up resistor may also be used.These solid-state relays are ideal for use in military systems, or wherever high reliability, low power actuation, and light weight are design considerations. Applications include general purpose signal switching and electronic load control.ABSOLUTE MAXIMUM RATINGSIsolation Voltage 1................................................................................................................................................1500 VAC RMS Continuous Operating Output Voltage: 53209.............................................................................................................±80 Peak53210.........................................................................................................±160 Peak 53211.........................................................................................................±320 PeakLoad Current 2: 53209...............................................................................................................................................4.1 A RMS53210 ..............................................................................................................................................2.6 A RMS 53211...............................................................................................................................................1.3 A RMSBias Supply Voltage, V DD ................................................................................................................................................16 VDC Control Logic Input Voltage..............................................................................................................................................16 VDC Operating Temperature ...........................................................................................................................-55ºC to +125ºC Case Storage Temperature ........................................................................................................................................-55ºC to +125ºCNotes : 1 60 Hz sine wave 2 at 25ºC with 2.0º C/W heat sink maxMicropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.53209, 53210, & 53211 SPDT SOLID-STATE RELAYSELECTRICAL CHARACTERISTICST A = +25° CPARAMETER CONDITIONS MIN TYP MAX UNITS Isolation Voltage, I/O 60 Hz Sine Wave1500 VAC RMSIsolation Resistanceat 500 V109 OhmsContinuous Operating Output Voltage 53209 53210 5321180 160 320 VAC Peak VAC Peak VAC PeakTransient Output Voltage 53209 53210 5321180 180 380 VAC Peak VAC Peak VAC PeakLoad Current53209 53210 532112.0 ºC/W Heat Sink4.1 2.6 1.3 Amps RMS On Resistance 53209 53210 53211 T A = 25ºC0.6 1.5 6.0 Ohms Ohms Ohms Capacitance, I/O 25 V, 1 MHz 5 pF Leakage Current Load Voltage = Maximum20 µA Bias Supply Voltage, V DD 4 16 VDCBias Current13 16 mA Control Logic Voltage 16 VDC Control Logic Current 2µAControl Logic Level – High 0.75V DD V DD VDC Control Logic Level – Low0.15 V DD VDC t r (Rise Time) t on (Turn-On-Time) t f (fall Time) t off (Turn-Off Time) t d (Dwell Time)Load Voltage = 28 VDCR L = 50Ω0.53.04.0 50 250 1.5msms µs µs ms Thermal Resistance, θJAθJC20 4.2 ºC/WºC/WMicropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.53209, 53210 and 53211 SPDT SOLID-STATE RELAYSTruth TableINPUT (Pin 1)Pin 12Pin 16High Closed OpenLow Open Closed1COMMONFET OUTPUTV DD CONTROL LOGICGNDINPUT BUFFERMicropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.Micropac reserves the right to make changes at any time in order to improve design and to supply the best product possible.SPDT SOLID-STATE RELAYSPackage Dimensions.735(.060)(1.390).240 MAX.1.000.600.800.200TOL: ±.010(BOTTOM VIEW).200.4002216311291.4501.7502.100.45 MIN.Ø.1572 PLACESØ.040, 6 PLACES.795。

前言4K-375MG-123/2.2-27.5型混合冷剂迷宫压缩机是xxxx石化科技有限公司20万吨/年液化气芳构化项目所需的压缩机设备。

本使用说明书对本产品的性能、结构及安装使用等方面均进行了详细的介绍，用户在安装使用前应认真阅读、了解和掌握压缩机的机构特点、遵照使用说明书中的规定和要求，进行正确安装、操作和维护，以保证压缩机长期安全可靠的的运行。

买方在得到本机器后，由于安装和操作不当而引起的机器损坏，制造厂是不负任何责任的，即使是在保修期内也是如此。

这些要求并不违背我们在质量证明书中所提出的保证。

与本机配套的外购设备的说明书，与本说明书有同等重要的作用，买方也应认真了解，按其要求安装和操作。

若我公司提供的产品出现故障，买方可将产品的出厂编号，合同号及故障部位通知我公司，我们会及时提出处理意见或派员现场处理。

通讯地址：邮政编码：邮箱：1.总体结构与主要技术规范1.1概述：本压缩机为四列2级立式迷宫压缩机，气缸为无油润滑、水冷式双作用。

工艺气由0.22MPa(G)压缩至2.75Mpa(G),为单层平面布置，其整机结构简图可参看图1。

图1 压缩机结构简图1.2 主要技术规范：1.2.1 压缩机a.容积流量 123 m3/min(进口状态)b.各级吸气压力 0.22/0.8 Mpa(G)c.各级排气压力 0.8/2.75 Mpa(G)d.各级吸气温度 40/40℃e.各级排气温度 85/104℃f.循环水进/出水温度 32/40℃g.循环水进/出水压力 0.4/0.25 Mpa(G)f.润滑油供油温度≤45℃g.润滑油压力 0.35 Mpa(G)h.压缩机转速 375 r/minj. 轴功率 1610 KWk. 活塞行程 375 mml. 气缸直径 640/360 mmm. 噪声≤85 dB(A)n. 机组重量 46000 Kgo. 最大零件重量 21500 Kg（机身）p. 传动方式同步电机直接传动q. 机组外形尺寸(长、宽、高) 14000x85000x55000mmr. 介质：混合制冷剂1.2 电动机a.型号 TAW1900-16/2150b.型式增安型同步电动机c.额定功率 1900Kwd.额定电压 10000Ve.额定转速 375r/minf.电机重量 30000Kgg.防爆等级 EXeⅡT32主要结构特征：2.1 机身机身分上下两半，下半带有油池、上半设有十字头滑道和隔离室，材料为QT450-10，用来安装曲轴、连杆、十字头、导向轴承。

产品名称：红外水分测定仪
型号：MB23
检测项目：水分含量测定
检测样品：畜禽肉、谷物等食品
产品简介：
产品可用于食品行业、制药行业、化工行业，并具有一下的特点：
1、背亮液晶演示屏
屏幕更加清晰明亮，并提供丰富的测定信息
2、便携的操作
没有繁琐的菜单，6个按键轻松完成全部操作
3、杰出的性能
运用了隔热式承重传感器技术、来防止加温过程对称量准确度造成的影响4、标配RS232通讯接口
方便连接打印机、电脑和其他外围设备
技术参数：
量程（g）110
可读性（g）0.01
可读性（g样品）（%）0.1%
重复性（3g样品）（%）0.3%
0.2%
重复性（10g样品）（%）
最小样品量（g）0.5
建议样品量（g）3-20
秤盘尺寸（mm）Φ90
升温程序标准
环境操作温度（℃）10℃-30℃
通讯双向RS232
终点控制定时、自动
加热温度范围（℃）50℃到160℃(5℃为一阶梯)
显示内容水分%、固体%、重量、时间、
温度
加热时间1-60分钟步进量为30秒，60-90
分钟步进量为1分钟
外形尺寸（宽*高*长）（mm）165*127*280
净重（kg） 2.1
总重（kg） 4.15
样品盘手柄标配
加热源红外加热
厂商：天迈生物
产地：杭州。

C K-300M低压电动机保护装置使用说明书APPLICATION INSTRUCTIONS____________________________________________________ 天水长开电子科技有限公司TIANSHUI CHANGKAI ELECTRONICS CO.,LTD目录1.装置简介 (5)1.1概述 (5)1.2 产品特点 (5)2技术指标 (6)2.1环境条件 (6)2.2辅助电源 (6)2.3额定参数 (6)2.4功率消耗 (6)2.5过载能力 (7)2.6保护定值误差 (7)2.7测量精度. (7)2.8继电器输出. (7)2.9开关量输入 (7)2.10通讯口 (8)2.11电气绝缘特性 (8)2.11.1介质强度 (8)2.11.2绝缘电阻 (8)2.11.3冲击电压 (8)2.11.4EMC特性 (8)2.11.4.1静电放电干扰 (8)2.11.4.3电快速瞬变脉冲群干扰 (8)2.11.4.4浪涌干扰 (8)2.11.4.5射频传导干扰 (8)2.11.4.6工频磁场干 (8)3功能原理 (9)3.1保护功能 (9)3.1.1保护动作特性 (9)3.1.2短路保护 (10)3.1.3堵转保护 (10)3.1.4定时限过负荷保护 (11)3.1.5反时限过负荷保护（热元件保护） (11)3.1.6接地保护 (13)3.1.7电流不平衡保护 (13)3.1.8断相保护 (14)3.1.9欠压保护 (15)3.1.10过压保护 (16)3.1.11tE时间保护 (17)3.1.12启动时间过长保护 (18)3.1.13工艺联锁跳闸 (19)3.1.14晃电自起动功能 (19)3.2测量功能 (21)3.3事件顺序记录（SO E） (21)3.4通讯功能 (21)3.5开出、开入功能 (22)3.5.1继电器输出（DO1～DO4 (22)3.5.2开关量输入（DI1～DI11） (23)3.6模拟量输入、模拟量输出功能 (23)3.6.1模拟量输入 (23)3.6.2模拟量输出（4—20mA） (23)3.7需要零序保护的低压电动机外接零序CT选用说明 (24)3.7.1外接零序CT与软件合成零序电流说明 (24)3.7.2零序CT要求 (24)3.7.3零序电流显示 (24)3.7.4保护整定 (25)3.7.5保护整定举例 (25)4安装和接线 (25)4.1安装 (25)4.1.1环境要求 (25)4.1.2安装 (25)4.1.3安装尺寸 (25)4.1.3.1一体式安装 (25)4.1.3.2分体式安装 (26)4.1.3.3专用小型穿心式CT-MT (26)4.2接线 (27)4.2.1端子接线（11DI4DO-AO，内置CT） (27)4.2.2端子接线（11DI4DO-AO，外置穿心CT） (29)4.2.3工作电源 (31)4.2.4电压电流输入接线 (31)4.2.5各种接线方式下的电压电流接线 (31)4.2.5.1电压直接接入，三相四线不带P T 带3CT（接线模式选“4线星形”） (31)4.2.5.2电压直接接入，三相三线不带P T，带3CT（接线模式选“三角形”） (32)4.2.5.3电压经P T接入，三相四线带3P T 带3CT（接线模式选“4线星形”） (32)4.2.5.4电压经P T接入，三相三线不带P T 带3CT（接线模式选“三角形”） (32)4.3典型接线图 (33)4.3.1保护模式 (33)4.3.2直接启动 (34)4.3.3自耦降压启动. (35)4.3.4星三角启动 (36)4.3.5正反向启动 (37)4.3.6典型应用 (38)5基本操作 (39)5.1开机 (39)5.2面板按键 (39)5.3测量显示模式 (40)5.3.1按键功能 (40)5.3.2显示说明 (41)5.4参数设置模式 (42)5.4.1按键操作 (42)5.4.2参数设置的内容说明 (42)5.4.3参数设置操作举例（见附录） (49)5.4.4设置短路保护操作举例（见附录） (49)5.5自动SOE弹出显示 (49)5.6状态指示 (50)5.6.1开入节点、开出继电器状态显示 (50)5.6.2运行指示 (50)6电动机的启动控制 (51)6.1启动方式分类 (51)6.2启动控制权限 (53)6.3各种启动控制下的接线 (54)6.3.1直接启动方式 (54)6.3.2自耦降压启动方式 (55)6.3.3星三角启动方式 (56)6.3.4正反转启动方式 (57)7装置调试与故障分析 (58)7.1装置调试 (58)7.2装置故障分析 (59)7.2.1无显示 (59)7.2.2装置上电后工作不正常 (59)7.2.3电压或电流读数不正确 (60)7.2.4功率或功率因数读数不正确，但电压和电流读数正确 (60)7.2.5不能正确操作断路器或操作信号不正确 (60)7.2.6开关量输入不正确 (60)7.2.7 RS-485通讯不正常 (60)8订货须知 (61)9售后服务承诺 (62)9.1新装置质量保证 (62)9.2装置升级 (62)9.3装置质保限制 (62)10附录：参数编程和设置短路保护设置 (63)1装置简介概述CK300M低压电动机保护测控装置是结合国际上电力自动化的发展趋势与国内电网特点而开发出来的，适用于低压380V系统，满足国内用户对低压电动机保护的需求。

省份名称编码1编码2北京市（京）BJJ11天津市（津）TJJ12上海市（沪）SHH31重庆市（渝）CQY50河北省（冀）HBJ13河南省（豫）HNY41云南省（云）YNY53辽宁省（辽）LNL21黑龙江省（黑）HLJ23湖南省（湘）HNX43安徽省（皖）AHY34山东省（鲁）SDL37新疆维吾尔（新）XJX65江苏省（苏）JSS32浙江省（浙）ZJZ33江西省（赣）JXG36湖北省（鄂）HBE42广西壮族（桂）GXG45甘肃省（甘）GSG62山西省（晋）SXJ14内蒙古（蒙）NMG15陕西省（陕）SXS61吉林省（吉）JLJ22福建省（闽）FJM35贵州省（贵）GZG52广东省（粤）GDY44青海省（青）QHQ63西藏（藏）XZZ54四川省（川）SCC51宁夏回族（宁）NXN64海南省（琼）HNQ46说明：编码1为省份名称的汉语拼音首字母（2个）加省份简称首字母（1个）；或省份名称的汉语拼音首字母（3个） 编码2为省份身份证代码我国共有三十四个省级行政单位,其中包括二十三个省、五个自治区、还有四个直辖市及香港和澳门两个特别行政区 长江中下游六省一市：湖北、湖南、江西、安徽、江苏、浙江、上海市；黄河中下游五省二市：陕西、山西、河南、河北、山东、天津市、北京市；华南四省两特区一区：福建、广东、海南、台湾、广西区、香港特区、澳门特区；西南三省一市：云南、贵州、四川、重庆市；西北一省二区：甘肃、宁夏区、新疆区；世界屋脊一省一区：青海、西藏区；东北三省一区：黑龙江、吉林、辽宁、内蒙区。

台湾TWT71香港XGG81澳门AMA82yz拼音首字母（3个）香港和澳门两个特别行政区yz。

目次1 总则12 术语23 编码的格式和规则33.1 编码格式 33.2 水情信息编码分类码 53.3 水情站码 63.4 测报时间码 63.5 时间步长码73.6 要素标识符73.7 数据（值）编码94 降水量编码104.1 一般规定104.2 标识符114.3 编码格式124.4 编码示例145 蒸发量编码195.1 一般规定195.2 标识符195.3 编码格式195.4 编码示例206 河道水情编码错误！未指定书签。

6.1 一般规定226.2 标识符236.3 编码格式256.4 编码示例267 水库（湖泊）水情编码327.1 一般规定327.2 标识符337.3 编码格式347.4 编码示例368 闸坝水情编码408.1 一般规定408.2 标识符418.3 编码格式428.4 编码示例439 泵站水情编码469.1 一般规定469.2 标识符469.3 编码格式479.4 编码示例4810 潮汐水情编码5110.1 一般规定5110.2 标识符 5110.3 编码格式5310.4 编码示例5411 沙情编码错误！未指定书签。

11.1 一般规定5611.2 标识符 5611.3 编码格式5711.4 编码示例5812 冰情编码6012.1 一般规定6012.2 标识符 6112.3 编码格式6512.4 编码示例6613 土壤墒情编码6913.1 一般规定6913.2 标识符 7013.3 编码格式7113.4 编码示例7214 特殊水情编码7514.1 一般规定7514.2 标识符 7514.3 编码格式7714.4 编码示例7715 水文预报编码7915.1 一般规定7915.2 标识符 7915.3 编码格式8115.4 编码示例84附录A 报送水情信息的规定错误！未指定书签。

附录B 编码要素及标识符汇总表（略）90附录C 蒲福氏风力等级表（以距地面10m为准） 91本标准用词说明92本标准条文说明 (92)1 总则1.0.1本标准主要是针对原《水情信息编码标准》（SL330－2005）的部分内容进行了修订。