DS1631H中文资料

MAX1631的引脚说明PIN1：CSH3。

3.3V SMPS（开关电源Switch Mode Power Supply )电流检测输入，以CSL3为参考限流电平为100mV。

PIN2：CSL3。

电流检测输入。

常在固定输出模式里作为反馈输入。

PIN3：FB3。

3.3V SMPS的反馈输入；将FB3调整在REF（约2.5V）时为输出可调模式。

当FB3接地时，为固定3.3V输出。

当FB3连接一个分压电阻时为输出可调节模式。

PIN4：对MAX1630、MAX1632来说，此脚为12V输出。

可往外提供12V，120mA的电压。

但要外接一个1uF电容。

对MAX1631来说，此脚为STEER。

次级反馈的逻辑控制输入。

用来选择PWM采用那路变压器和次级反馈信号。

当STEER为GND时，SECFB（secondary feedback次级反馈采用3.3V 变压器次级反馈。

当STEER为VL时，SECFB采用5V 变压器次级反馈。

PIN5：对MAX1630、MAX1632，VDD。

内置线性12V的电源。

对MAX1631，SECFB，次级线圈反馈输入。

通常从辅助输出连接一个电阻分压器。

SECFB调整在。

当接时为不采用。

2.5V VLPIN6：SYNC，振荡同步和频率选择。

连接到VL时工作在300kHZ；接地工作在200kHZ。

当有外接同步时时钟范围可在240kHZ至350Khz。

PIN7：TIME/ON5，具有双用途，用作定时电容引脚和开关控制输入。

PIN8：GND，低噪音模拟地和反馈参考点。

PIN9：REF，2.5V参考电压输出。

接1uF电容至地。

PIN10：SKIP#。

逻辑控制输入。

当为高电平时取消空闲模式。

接地为正常模式。

PIN11：RESET#，低电平有效的定时复位输出。

RESET#在地至VL之间变化。

在上电后的32,000个周32000期变高电平。

PIN12：FB5，5V SMPS反馈输入；调整到FB5=REF（约2.5V）工作输出可调整模式。

电压/电流校准器 C.A 1631中文目录1简介 (20)2前面板说明 (21)3显示屏说明 (22)4使用说明 (23)4.1DC 电压测量 (23)4.2DC 电压输出 (23)4.3DC 电流测量 (24)4.4环路电流测量 (24)4.5DC 电流输出 (25)4.6发射器的模拟 (25)4.7自动断电 (26)4.8显示所有图标 (26)4.9端口回路图 (27)5技术特性 (28)5.1DC 电压输入和输出 (28)5.2DC 电流输入和输出 (28)5.3环路电压 (28)6一般特性 (29)7电源适配器（附件） (29)7.1连接电源适配器 (29)7.2电源适配器的 AC/DC 特性 (30)8维护 (30)8.1清洁 (30)8.2校准 (30)8.3更换电池 (31)8.4更换熔断器 (31)8.5计量检验 (31)8.6修理 (31)8.7电压测量和输出参数 (32)8.8电流测量和输出参数 (32)9担保 (33)10订购 (33)18中文电压/电流校准器 C.A 1631感谢您购买了电压/电流校准器 C.A 1631。

为使本机发挥最佳的效用，请：·仔细阅读操作手册；·使用时应遵照这些注意事项所用图标的含义19电压/电流校准器 C.A 1631中文使用注意事项为避免触电或人身伤害危险：·端口间或对地间施加的电压不得超过 30V；·使用校准器之前，应确保电池盖关闭并锁紧；·打开电池后盖前请断开所有导线连接；·若校准器或其导线有损坏切勿使用；·不得将校准器用在爆炸气体、蒸汽或灰尘中。

为避免损坏校准器：·只使用与所选功能相对应的端口。

·校准器不运行时，不得施加电压或电流。

1简介电压/电流校准器是一种测量装置。

可用于测量 0 到 24mA 的 DC 电流环路和 0 到20V 的 DC 电压。

TL F 5816DS1631 DS3631 DS1632 DS3632 DS1633 DS3633 DS1634 DS3634CMOS Dual Peripheral DriversJuly 1992DS1631 DS3631 DS1632 DS3632 DS1633 DS3633 DS1634 DS3634CMOS Dual Peripheral DriversGeneral DescriptionThe DS1631series of dual peripheral drivers was designed to be a universal set of interface components for CMOS circuitsEach circuit has CMOS compatible inputs with thresholds that track as a function of V CC (approximately V CC ) The inputs are PNPs providing the high impedance necessary for interfacing with CMOSOutputs have high voltage capability minimum breakdown voltage is 56V at 250m AThe outputs are Darlington connected transistors This al-lows high current operation (300mA max)at low internal V CC current levels since base drive for the output transistor is obtained from the load in proportion to the required load-ing conditions This is essential in order to minimize loading on the CMOS logic supplyTypical V CC e 5V power is 28mW with both outputs ON V CC operating range is 4 5V to 15VThe circuit also features output transistor protection if the V CC supply is lost by forcing the output into the high impe-dance OFF state with the same breakdown levels as when V CC was appliedPin-outs are the same as the respective logic functions found in the following popular series of circuits DS75451 DS75461 This feature allows direct conversion of present systems to the MM74C CMOS family and DS1631series circuits with great power savingsThe DS1631series is also TTL compatible at V CC e 5VFeaturesY CMOS compatible inputs Y High impedance inputs PNP’s Y High output voltage breakdown 56V min Y High output current capability 300mA max YSame pin-outs and logic functions as DS75451and DS75461series circuitsYLow V CC power dissipation (28mW both outputs ‘‘ON’’at 5V)Connection Diagrams (Dual-In-Line and Metal Can Packages)TL F 5816–1Top ViewOrder Number DS1631J-8or DS3631NTL F 5816–2Top View Order Number DS1632J-8or DS3632N TL F 5816–3Top ViewOrder Number DS1633J-8or DS3633N TL F 5816–4Top ViewOrder Number DS1634J-8or DS3634NSee NS Package Number J08A or N08ETL F 5816–5Top View(Pin 4is electrically connected to the case )Order Number DS1631HTL F 5816–6Top View(Pin 4is electrically connected to the case )Order Number DS1632H TL F 5816–7Top View(Pin 4is electrically connected to the case )Order Number DS1633HTL F 5816–8Top View(Pin 4is electrically connected to the case )Order Number DS1634HSee NS Package Number H08CC 1995National Semiconductor Corporation RRD-B30M105 Printed in U S AAbsolute Maximum Ratings(Note1)If Military Aerospace specified devices are required please contact the National Semiconductor Sales Office Distributors for availability and specifications Supply Voltage16V Voltage at Inputs b0 3V to V CC a0 3V Output Voltage56V Storage Temperature Range b65 C to a150 C Maximum Power Dissipation at25 CCavity Package1133mW Molded Package1022mW TO-5Package787mW Lead Temperature(Soldering 4sec 260 C Derate cavity package7 6mW C above25 C derate molded package 8 2mW C above25 C derate TO-5package5 2mW C above25 C Operating ConditionsMin Max Units Supply Voltage V CCDS1631 DS1632 4 515V DS1633 DS1634DS3631 DS3632 4 7515V DS3633 DS3634Temperature T ADS1631 DS1632 b55a125 C DS1633 DS1634DS3631 DS3632 0a70 C DS3633 DS3634Electrical Characteristics(Notes2and3)Symbol Parameter Conditions Min Typ Max Units ALL CIRCUITSV IH Logical‘‘1’’Input Voltage(Figure1)V CC e5V3 52 5VV CC e10V8 05VV CC e15V12 57 5V V IL Logical‘‘0’’Input Voltage(Figure1)V CC e5V2 51 5VV CC e10V5 52 0VV CC e15V7 52 5V I IH Logical‘‘1’’Input Current V CC e15V V IN e15V (Figure2)0 110m A I IL Logical‘‘0’’Input Current V IN e0 4V (Figure3)V CC e5V b50b120m AV CC e15V b200b360m A V OH Output Breakdown Voltage V CC e15V I OH e250m A (Figure1)5665V V OL Output Low Voltage V CC e Min (Figure1)DS1631 DS1632 I OL e100mA0 851 1VDS1633 DS1634IOL e300mA1 11 4VV CC e Min (Figure1)DS3631 DS3632 I OL e100mA0 851 0VDS3633 DS3634IOL e300mA1 11 3V DS1631 DS3631I CC(0)Supply Currents V IN e0V (Figure4)V CC e5V Output Low711mAV CC e15V Both Drivers1420mA I CC(1)(Figure4)V CC e5V V IN e5V Output High23mAV CC e15V V IN e15V Both Drivers7 510mA t PD1Propagation to‘‘1’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 500ns(Figure5)t PD0Propagation to‘‘0’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 750ns(Figure5)DS1632 DS3632I CC(0)Supply Currents(Figure4)V CC e5V V IN e5VOutput Low 812mAV CC e15V V IN e15V1823mAI CC(1)V IN e0V (Figure4)V CC e5VOutput High 2 53 5mAV CC e15V914mA t PD1Propagation to‘‘1’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 500ns(Figure5)t PD0Propagation to‘‘0’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 750ns(Figure5)2Electrical Characteristics (Notes 2and 3)(Continued)Symbol Parameter Conditions MinTyp Max Units DS1633 DS3633I CC(0)Supply CurrentsV IN e 0V (Figure 4)V CC e 5V Output Low7 512mA V CC e 15V1623mA I CC(1)(Figure 4)V CC e 5V V IN e 5V Output High 24mA V CC e 15V V IN e 15V7 215mA t PD1Propagation to ‘‘1’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 500ns (Figure 5)t PD0Propagation to ‘‘0’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 750ns(Figure 5)DS1634 DS3634I CC(0)Supply Currents(Figure 4)V CC e 5V V IN e 5V Output Low 7 512mA V CC e 15V V IN e 15V 1823mA I CC(1)V IN e 0V (Figure 4)V CC e 5V Output High35mA V CC e 15V1118mA t PD1Propagation to ‘‘1’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 500ns (Figure 5)t PD0Propagation to ‘‘0’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 750ns(Figure 5)Note 1 ‘‘Absolute Maximum Ratings’’are those values beyond which the safety of the device cannot be guaranteed Except for ‘‘Operating Temperature Range’’they are not meant to imply that the devices should be operated at these limits The table of ‘‘Electrical Characteristics’’provides conditions for actual device operationNote 2 Unless otherwise specified min max limits apply across the b 55 C to a 125 C temperature range for the DS1631 DS1632 DS1633and DS1634and across the 0 C to a 70 C range for the DS3631 DS3632 DS3633and DS3634 All typical values are for T A e 25 CNote 3 All currents into device pins shown as positive out of device pins as negative all voltages referenced to ground unless otherwise noted All values shown as max or min on absolute value basisTest CircuitsTL F 5816–9Input Other Output Circuit Under Input Apply Measure Test DS3631V IH V IH I OH V OH V IL V CC I OL V OL DS3632V IH V IH I OL V OL V IL V CC I OH V OH DS3633V IH GND I OH V OH V IL V IL I OL V OL DS3634V IH GND I OL V OL V ILV ILI OHV OHNote Each input is tested separatelyFIGURE 1 V IH V IL V OH V OL3Test Circuits (Continued)TL F 5816–10Each input is tested separatelyFIGURE 2 I IHTL F 5816–11Note A Each input is tested separatelyNote B When testing DS1633and DS1634input not under test is grounded For all other circuits it is at V CCFIGURE 3 I ILTL F 5816–12Both gates are tested simultaneouslyFIGURE 4 I CC for AND and NAND CircuitsSchematic Diagram (Equivalent Circuit)TL F 5816–154Switching Time WaveformsTL F 5816–13TL F 5816–14 Note1 The pulse generator has the following characteristics PRR e500kHz Z OUT 50XNote2 C L includes probe and jig capacitanceFIGURE5 Switching Times5Physical Dimensions inches(millimeters)Metal Can Package(H)Order Number DS1631H DS1632H DS1633H or DS1634HNS Package Number H08C6Physical Dimensions inches(millimeters)(Continued)Ceramic Dual-In-Line Package(J)Order Number DS1631J-8 DS1632J-8 DS1633J-8or DS1634J-8NS Package Number J08A7D S 1631 D S 3631 D S 1632 D S 3632 D S 1633 D S 3633 D S 1634 D S 3634C M O S D u a l P e r i p h e r a l D r i v e r sPhysical Dimensions inches (millimeters)(Continued)Molded Dual-In-Line Package (N)Order Number DS3631N DS3632NDS3633N and DS3634N NS Package Number N08ELIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL SEMICONDUCTOR CORPORATION As used herein 1 Life support devices or systems are devices or 2 A critical component is any component of a life systems which (a)are intended for surgical implant support device or system whose failure to perform can into the body or (b)support or sustain life and whose be reasonably expected to cause the failure of the life failure to perform when properly used in accordance support device or system or to affect its safety or with instructions for use provided in the labeling can effectivenessbe reasonably expected to result in a significant injury to the userNational Semiconductor National Semiconductor National Semiconductor National Semiconductor CorporationEuropeHong Kong LtdJapan Ltd1111West Bardin RoadFax (a 49)0-180-530858613th Floor Straight Block Tel 81-043-299-2309。

DS-6100 3G系列视频服务器
硬盘文件管理
支持接入单块SATA硬盘，可支持每个最大容量为2TB的硬盘*支持硬盘技术
•支持循环写入和非循环写入两种模式
*文件格式与Windows系统兼容，采用硬盘空间预分配技术杜绝硬盘碎片的产生开发支持
* 提供Win dows、Linux系统下的SDK软件开发包
*提供演示的应用软件源码
-提供应用系统的开发支持及开发培训服务
典型应用
•无人值守变电站、电信基站的远程监控
*平安城市、道路交通、监狱管理、警务督察等公安行业的视频监控
*全球眼、宽视界等业务的分布式视频接入
*考场联网视频监控
*智能化大厦、智能小区的视频监控
命名规则
技术规格表
DS-6100HF （3G 系列）
DS-6100HC-S （3G 系列）
技术规格表
DS-6100HF-S （3G 系列）。

FEATURES§ DS1631 and DS1631A Provide ±0.5°C Accuracy over a 0°C to +70°C Range § DS1731 Provides ±1°C Accuracy over a-10°C to +85°C Range§ DS1631A Automatically Begins Taking Temperature Measurements at Power-Up § Operating Temperature Range: -55°C to +125°C (-67°F to +257°F)§ Temperature Measurements Require No External Components§ Output Resolution is User-Selectable to 9,10, 11, or 12 Bits§ Wide Power-Supply Range (+2.7V to +5.5V)§ Converts Temperature-to-Digital Word in 750ms (max)§ Multidrop Capability Simplifies Distributed Temperature-Sensing Applications§ Thermostatic Settings are User-Definable and Nonvolatile (NV)§ Data is Read/Written Through 2-Wire Serial Interface (SDA and SCL Pins)§ All Three Devices are Available in 8-Pin m SOP Packages and the DS1631 is Also Available in a 150mil SO package—see Table 1 for Ordering InformationPIN CONFIGURATIONSDESCRIPTIONThe DS1631, DS1631A, and DS1731 digital thermometers provide 9, 10, 11, or 12-bit temperature readings over a -55°C to +125°C range. The DS1631 and DS1631A thermometer accuracy is ±0.5°C from 0°C to +70°C with 3.0V £ V DD £ 5.5V, and the DS1731 accuracy is ±1°C from -10°C to +85°C with 3.0V £ V DD £ 5.5V. The thermostat on all three devices provides custom hysteresis with user-defined trip points (T H and T L ). The T H and T L registers and thermometer configuration settings are stored in NV EEPROM so they can be programmed prior to installation. In addition, the DS1631A automatically begins taking temperature measurements at power-up, which allows it to function as a stand-alone thermostat. Communication with the DS1631/DS1631A/DS1731 is achieved through a 2-wire serial interface, and three address pins allow up to eight devices to be multidropped on the same 2-wire bus.Pin descriptions for the DS1631/DS1631A/DS1731 are provided in Table 2 and user-accessible registers are summarized in Table 3. A functional diagram is shown in Figure 1.High-Precision DigitalThermometer and ThermostatSO (150mil)(DS1631Z)SCL V DD A 0A 1A 2GNDT OUT SDA m SOP(DS1631U, DS1631AU, DS1731U)SCL V DD A 0A 1A 2GNDT OUT SDASee Table 2 for Pin DescriptionsAPPLICATIONS§ Network Routers and Switches § Cellular Base Stations § Portable Products§Any Space-Constrained Thermally Sensitive ProductTable 1. ORDERING INFORMATIONORDERING NUMBER PACKAGE MARKING DESCRIPTIONDS1631UD1631DS1631 in 8-Pin m SOPDS1631U/T&R D1631DS1631 in 8-Pin m SOP, 3000-Piece Tape-and-Reel DS1631ZDS1631Z DS1631 in 150mil 8-Pin SODS1631Z/T&R DS1631Z DS1631 in 150mil 8-Pin SO, 2500-Piece Tape-and-Reel DS1631A U1631A DS1631A in 8-Pin m SOPDS1631AU/T&R 1631A DS1631A in 8-Pin m SOP, 3000-Piece Tape-and-Reel DS1731UD1731DS1731 in 8-Pin m SOPDS1731U/T&RD1731DS1731 in 8-Pin m SOP, 3000-Piece Tape-and-ReelTable 2. DETAILED PIN DESCRIPTIONPIN SYMBOL DESCRIPTION1SDA Data Input/Output Pin for 2-Wire Serial Communication Port. Open-Drain.2SCL Clock Input Pin for 2-Wire Serial Communication Port.3T OUT Thermostat Output Pin. Push-Pull.4GND Ground Pin5A 2Address Input Pin 6A 1Address Input Pin 7A 0Address Input Pin8V DDSupply Voltage Pin. +2.7V to +5.5V Power-Supply Pin.Figure 1. FUNCTIONAL DIAGRAMA 1A 2A 0SCL SDA T OUTV DDGNDABSOLUTE MAXIMUM RATINGS*Voltage on any Pin Relative to Ground -0.5V to +6.0V Operating Temperature Range -55°C to +125°C Storage Temperature Range -55°C to +125°CSolder Dip Temperature (10s)See IPC/JEDEC J-STD-020A Specification Reflow Oven Temperature+220°C* These are stress ratings only and functional operation of the device at these or any other conditions above those indicated in the operation sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect reliability.DC ELECTRICAL CHARACTERISTICS(V DD = 2.7V to 5.5V; T A = -55°C to +125°C.)PARAMETER SYMBOL CONDITION MIN MAX UNITS NOTES Supply Voltage V DD2.75.5V10°C to +70°C,3.0V £ V DD £ 5.5V ±0.50°C to +70°C,2.7V £ V DD < 3.0V ±1DS1631, DS1631A Thermometer ErrorT ERR-55°C to +125°C ±2°C2-10°C to +85°C,3.0V £ V DD £ 5.5V ±1-10°C to +85°C,2.7V £ V DD < 3.0V ±1.5DS1731Thermometer Error T ERR-55°C to +125°C±2°C2Low-Level Input VoltageV IL -0.50.3 x V DD V High-Level Input VoltageV IH 0.7 x V DD V DD + 0.3V V OL13mA sink current 00.4SDA Low-Level Output Voltage V OL26mA sink current 00.6V Input Current Each I/O Pin0.4 < V I/O < 0.9V DD -10+10µA Temperature conversion -55°C to +85°C 1Temperature conversion+85°C to +125°C 1.25mAE 2 write400Active Supply CurrentI DDCommunication only 110µA 3Standby Supply CurrentI STBY 0°C to +70°C 800nA 4V OH 1mA source current 2.4V 1T OUT Output Logic VoltageV OL4mA sink current0.4V1AC ELECTRICAL CHARACTERISTICS(V DD = 2.7V to 5.5V; T A = -55°C to +125°C.) PARAMETER SYMBOL CONDITION MIN TYP MAX UNITS NOTES9-bit resolution93.7510-bitresolution187.511-bit resolution 375TemperatureConversion Timet TC12-bit resolution 750msSCL Frequency f SCL0400kHzBus Free TimeBetween a STOP andSTART Conditiont BUF 1.3µs5START and RepeatedSTART Hold Timefrom Falling SCLt HD:STA0.6µs5, 6 Low Period of SCL t LOW 1.3µs5 High Period of SCL t HIGH0.6µs5 Repeated STARTCondition Setup Timeto Rising SCLt SU:STA0.6µs5Data-Out Hold Time from Falling SCL t HD:DAT0.9µs5Data-In Setup Time toRising SCLt SU:DAT100ns5 Rise Time of SDA andSCLt R20 + 0.1C B1000ns5, 7 Fall Time of SDA andSCLt F20 + 0.1C B300ns5, 7 STOP Setup Time toRising SCLt SU:STO0.6µs5 Capacitive Load forEach Bus LineC B400pFI/O Capacitance C I/O10pFInput Capacitance C I5pFSpike Pulse Width thatcan be Suppressed byInput Filtert SP050nsNOTES:1)All voltages are referenced to GND.2)See Figure 2 for Typical Operating Curves.3)Specified with T OUT pin open; A0, A1, A2 = 0V or V DD; and f SCL³ 2Hz.4)Specified with temperature conversions stopped; T OUT pin open; SDA = V DD; SCL = V DD; and A0, A1,A2 = 0V or V DD.5)See Timing Diagram in Figure 3. All timing is referenced to 0.9 x V DD and 0.1 x V DD.6)After this period the first clock pulse is generated.7)For example, if C B = 300pF, then t R[min] = t F[min] = 50ns.EEPROM AC ELECTRICAL CHARACTERISTICS(V DD = 2.7V to 5.5V; T A = -55°C to +125°C.)PARAMETERSYMBOLCONDITION MIN TYP MAXUNITS EEPROM Write Cycle Time t wr 410ms EEPROM WritesN EEWR -55°C to +55°C 50kWrites EEPROM Data Retentiont EEDR-55°C to +55°C10YearsFigure 2. TYPICAL OPERATING CURVESFigure 3. TIMING DIAGRAMAll timing is referenced to 0.9 x V DD and 0.1 x V DD .Table 3. REGISTER SUMMARYREGISTER NAME (USER ACCESS)SIZE(BYTES)MEMORYTYPEREGISTER CONTENTSAND POWER-UP STATETemperature (Read Only)2SRAMMeasured temperature in two’s complementformat.Power-up state: -60ºC (1100 0100 0000 0000)T H(Read/Write)2EEPROMUpper alarm trip point in two’s complementformat.Power-up state: user defined.T L(Read/Write)2EEPROMLower alarm trip point in two’s complementformat.Power-up state: user defined.Configuration(Various bits are Read/Write and Read Only—See Table 5)1SRAM,EEPROMConfiguration and status information. Unsigneddata.6 MSbs = SRAM2 LSbs (POL and 1SHOT bits) = EEPROMPower-up state: 100011XX (XX = user defined)OPERATION—MEASURING TEMPERATUREThe DS1631, DS1631A, and DS1731 measure temperature using bandgap-based temperature sensors. A delta-sigma analog-to-digital converter (ADC) converts the measured temperature to a 9-, 10-, 11-, or 12-bit (user-selectable) digital value that is calibrated in °C; for °F applications a lookup table or conversion routine must be used. Throughout this data sheet, the term “conversion” is used to refer to the entire temperature measurement and ADC sequence.The DS1631 and DS1731 always power-up in a low-power idle state, and the Start Convert T command must be used to initiate conversions. The DS1631A always begins conversions automatically at power-up.The DS1631, DS1631A, and DS1731 can be programmed to perform continuous consecutive conversions (continuous-conversion mode) or to perform single conversions on command (one-shot mode). The conversion mode is programmed through the 1SHOT bit in the configuration register as explained in the CONFIGURATION REGISTER section of this data sheet. In continuous-conversion mode, the DS1631A begins performing continuous conversions immediately at power-up, and the DS1631 and DS1731 begin continuous conversions after a Start Convert T command is issued. For all three devices, consecutive conversions continue to be performed until a Stop Convert T command is issued, at which time the device goes into a low-power idle state. Continuous conversions can be restarted at any time using the Start Convert T command.In one-shot mode the DS1631A performs a single conversion at power-up, and the DS1631 and DS1731 perform a single temperature conversion when a Start Convert T command is issued. For all three devices, when the conversion is complete the device enters a low-power idle state and remains in that state until a single temperature conversion is again initiated by a Start Convert T command.The resolution of the output digital temperature data is user-configurable to 9, 10, 11, or 12 bits, corresponding to temperature increments of 0.5°C, 0.25°C, 0.125°C, and 0.0625°C, respectively. The default resolution at power-up is 12 bits, and it can be changed through the R0 and R1 bits in the configuration register. Note that the conversion time doubles for each additional bit of resolution.After each conversion, the digital temperature is stored as a 16-bit two’s complement number in the two-byte temperature register as shown in Figure 4. The sign bit (S) indicates if the temperature is positive or negative: for positive numbers S = 0 and for negative numbers S = 1. The Read Temperature commandprovides user access to the temperature register. Bits 3 through 0 of the temperature register are hardwired to 0. When the device is configured for 12-bit resolution, the 12 MSbs (bits 15 through 4) of the temperature register contain temperature data. For 11-bit resolution, the 11 MSbs (bits 15 through 5) of the temperature register contain data, and bit 4 is 0. Likewise, for 10-bit resolution, the 10 MSbs (bits 15 through 6) contain data, and for 9-bit the 9 MSbs (bits 15 through 7) contain data, and all unused LSbs contain 0s. Table 4 gives examples of 12-bit resolution output data and the corresponding temperatures. Figure 4. TEMPERATURE, T H, AND T L REGISTER FORMATbit 15bit 14bit 13bit 12bit 11bit 10bit 9bit 8 MS Byte S26252423222120bit 7bit 6bit 5bit 4bit 3bit 2bit 1bit 0 LS Byte2-12-22-32-40000Table 4. 12-BIT RESOLUTION TEMPERATURE/DATA RELATIONSHIPTEMPERATURE(°C)DIGITAL OUTPUT(BINARY)DIGITAL OUTPUT(HEX)+1250111 1101 0000 00007D00h+25.06250001 1001 0001 00001910h+10.1250000 1010 0010 00000A20h+0.50000 0000 1000 00000080h00000 0000 0000 00000000h-0.51111 1111 1000 0000FF80h-10.1251111 0101 1110 0000F5E0h-25.06251110 0110 1111 0000E6F0h-551100 1001 0000 0000C900h OPERATION—THERMOSTAT FUNCTIONThe thermostat output (T OUT) is updated after every temperature conversion, based on a comparison between the measured digital temperature and user-defined upper and lower thermostat trip points. T OUT remains at the updated value until the next conversion completes. When the measured temperature meets or exceeds the value stored in the upper trip-point register (T H), T OUT becomes active and remains active until the measured temperature falls below the value stored in the lower trip-point register (T L) (see Figure 5). This allows the user to program any amount of hysteresis into the output response. The active state of T OUT is user-programmable through the polarity bit (POL) in the configuration register.The user-defined values in the T H and T L registers (see Figure 4) must be in two’s complement format with the MSb (bit 15) containing the sign bit (S). The T H and T L resolution is determined by the R0 and R1 bits in the configuration register (see Table 6), so the T H and T L resolution matches the output temperature resolution. For example, for 10-bit resolution bits 5 through 0 of the T H and T L registers read out as 0 (even if 1s are written to these bits), and the converted temperature is compared to the 10 MSbs of T H and T L.The T H and T L registers are stored in EEPROM; therefore, they are NV and can be programmed prior to device installation. Writing to and reading from the T H and T L registers is achieved using the Access THand Access TL commands. When making changes to the T H and T L registers, conversions should first be stopped using the Stop Convert T command if the device is in continuous conversion mode. Note that if the thermostat function is not used, the T H and T L registers can be used as general-purpose NV memory.Another thermostat feature is the temperature high and low flags (THF and TLF) in the configuration register. These bits provide a record of whether the temperature has been greater than T H or less than T L at anytime since the device was powered up. These bits power up as 0s, and if the temperature ever exceeds the T H register value, the THF bit is set to 1, or if the temperature ever falls below the T L value,the TLF bit is set to 1. Once THF and/or TLF has been set, it remains set until overwritten with a 0 by the user or until the power is cycled.DS1631A STAND-ALONE THERMOSTAT OPERATIONSince the DS1631A automatically begins taking temperature measurements at power-up, it can function as a standalone thermostat (i.e., it can provide thermostatic operation without microcontroller communication). For standalone operation, the NV T H and T L registers and the POL and 1SHOT bits in the configuration register should be programmed to the desired values prior to installation. Since the default conversion resolution at power-up is 12 bits (R1 = 1 and R0 = 1 in the configuration register), the conversion resolution is always 12 bits during standalone thermostat operation.Figure 5. THERMOSTAT OUTPUT OPERATIONCONFIGURATION REGISTERThe configuration register allows the user to program various DS1631 options such as conversion resolution, T OUT polarity, and operating mode. It also provides information to the user about conversion status, EEPROM activity, and thermostat activity. The configuration register is arranged as shown in Figure 6 and detailed descriptions of each bit are provided in Table 5. This register can be read from and written to using the Access Config command. When writing to the configuration register, conversions should first be stopped using the Stop Convert T command if the device is in continuous conversion mode. Note that the POL and 1SHOT bits are stored in EEPROM so they can be programmed prior to installation is desired. All other configuration register bits are SRAM and power up in the state shown in Table 5.Figure 6. CONFIGURATION REGISTERMSbbit 6bit 5bit 4bit 3bit 2bit 1LSbDONE THF TLF NVB R1R0POL*1SHOT**NV (EEPROM)Table 5. CONFIGURATION REGISTER BIT DESCRIPTIONS BIT NAME(USER ACCESS)FUNCTIONAL DESCRIPTIONDONE—TemperatureConversion Done (Read Only)Power-up state = 1.DONE = 0. Temperature conversion is in progress. DONE = 1. Temperature conversion is complete.THF—Temperature High Flag (Read/Write)Power-up state = 0.THF = 0. The measured temperature has not exceeded the value stored in the T H register since power-up.THF = 1. At some point since power-up the measured temperature has been higher than the value stored in the T H register. THF remains a 1 until it is overwritten with a 0 by the user, the power is cycled, or a Software POR command is issued.TLF—Temperature Low Flag (Read/Write)Power-up state = 0.TLF = 0. The measured temperature has not been lower than the value stored in the T L register since power-up.TLF = 1. At some point since power-up the measured temperature has been lower than the value stored in the T L register. TLF remains a 1 until it is overwritten with a 0 by the user, the power is cycled, or a Software POR command is issued.NVB—NV Memory Busy (Read Only)Power-up state = 0.NVB = 1. A write to EEPROM memory is in progress. NVB = 0. NV memory is not busy.R1—Resolution Bit 1 (Read/Write)Power-up state = 1.Sets conversion, T H, and T L resolution (see Table 6).R0—Resolution Bit 0 (Read/Write)Power-up state = 1.Sets conversion, T H, and T L resolution (see Table 6).POL*—T OUT Polarity (Read/Write)Power-up state = last value written to this bit. POL = 1. T OUT is active high.POL = 0. T OUT is active low.1SHOT*—Conversion Mode (Read/Write)Power-up state = last value written to this bit.1SHOT = 1. One-Shot Mode. The Start Convert T command initiates a single temperature conversion and then the device goes into a low-power standby state.1SHOT = 0. Continuous Conversion Mode. The Start Convert T command initiates continuous temperature conversions.Table 6. RESOLUTION CONFIGURATIONR1R0RESOLUTION(BIT)CONVERSION TIME(MAX)00993.75ms 0110187.5ms 1011375ms 1112750ms2-WIRE SERIAL DATA BUSThe DS1631, DS1631A, and DS1731 communicate over a bidirectional 2-wire serial data bus that consists of a serial clock (SCL) signal and serial data (SDA) signal. The DS1631, DS1631A, and DS1731 interface to the bus through their SCL input pins and open-drain SDA I/O pins.The following terminology is used to describe 2-wire communication:Master Device: Microprocessor/microcontroller that controls the slave devices on the bus. The master device generates the SCL signal and START and STOP conditions.Slave: All devices on the bus other than the master. The DS1631, DS1631A, and DS1731 always function as slaves.Bus Idle or Not Busy: Both SDA and SCL remain high. SDA is held high by a pullup resistor when the bus is idle, and SCL must either be forced high by the master (if the SCL output is push-pull) or pulled high by a pullup resistor (if the SCL output is open-drain).Transmitter: A device (master or slave) that is sending data on the bus.Receiver: A device (master or slave) that is receiving data from the bus.START Condition: Signal generated by the master to indicate the beginning of a data transfer on the bus. The master generates a START condition by pulling SDA from high to low while SCL is high (see Figure 8). A “repeated” START is sometimes used at the end of a data transfer (instead of a STOP) to indicate that the master will perform another operation.STOP Condition: Signal generated by the master to indicate the end of a data transfer on the bus. The master generates a STOP condition by transitioning SDA from low to high while SCL is high (see Figure 8). After the STOP is issued, the master releases the bus to its idle state.Acknowledge (ACK): When a device is acting as a receiver, it must generate an acknowledge (ACK) on the SDA line after receiving every byte of data. The receiving device performs an ACK by pulling the SDA line low for an entire SCL period (see Figure 8). During the ACK clock cycle, the transmitting device must release SDA. A variation on the ACK signal is the “not acknowledge” (NACK). When the master device is acting as a receiver, it uses a NACK instead of an ACK after the last data byte to indicate that it is finished receiving data. The master indicates a NACK by leaving the SDA line high during the ACK clock cycle.Slave Address: Every slave device on the bus has a unique 7-bit address that allows the master to access that device. The 7-bit bus address is 1 0 0 1 A2 A1 A0, where A2, A1, and A0 are user-selectable through the corresponding input pins. The three address pins allow up to eight DS1631s, DS1631As, or DS1731s to be multidropped on the same bus.Control Byte: The control byte is transmitted by the master and consists of the 7-bit slave address plus a read/write (R/W･･) bit (see Figure 7). If the master is going to read data from the slave device then R/W･･ = 1, and if the master is going to write data to the slave device then R/W･･ = 0.Command Byte: The command byte can be any of the command protocols described in the COMMAND SET section of this data sheet.Figure 7. CONTROL BYTEbit 7bit 6bit 5bit 4bit 3bit 2bit 1bit 01001A2A1A0R/W･･Figure 8. START, STOP, AND ACK SIGNALSGENERAL 2-WIRE INFORMATION§ All data is transmitted MSb first over the 2-wire bus.§ One bit of data is transmitted on the 2-wire bus each SCL period.§ A pullup resistor is required on the SDA line and, when the bus is idle, both SDA and SCL must remain in a logic-high state.§ All bus communication must be initiated with a START condition and terminated with a STOP condition. During a START or STOP is the only time SDA is allowed to change states while SCL is high. At all other times, changes on the SDA line can only occur when SCL is low: SDA must remain stable when SCL is high.§ After every 8-bit (1-byte) transfer, the receiving device must answer with an ACK (or NACK), which takes one SCL period. Therefore, nine clocks are required for every one-byte data transfer.INITIATING 2-WIRE COMMUNICATIONTo initiate 2-wire communication, the master generates a START followed by a control byte containing the DS1631, DS1631A, or DS1731 slave address. The R/W ･･ bit of the control byte must be a 0 (“write”)since the master next writes a command byte. The DS1631/DS1631A/DS1731 responds with an ACK after receiving the control byte. This must be followed by a command byte from the master, which indicates what type of operation is to be performed. The DS1631/DS1631A/DS1731 again respond with an ACK after receiving the command byte.If the command byte is a Start Convert T or Stop Convert T command (see Figure 9a), the transaction is finished, and the master must issue a STOP to signal the end of the communication sequence. If the command byte indicates a write or read operation, additional actions must occur as explained in the following sections.2-WIRE WRITESThe master can write data to the DS1631/DS1631A/DS1731 by issuing an Access Config, Access TH, or Access TL command following the control byte (see Figures 9b and 9d). Since the R/W ･･ bit in the control byte was a 0 (“write”), the DS1631/DS1631A/DS1731 are already prepared to receive data. Therefore,after receiving an ACK in response to the command byte, the master device can immediately begin transmitting data. When writing to the configuration register, the master must send one byte of data, and when writing to the T H or T L registers the master must send two bytes of data. After receiving each data byte, the DS1631/DS1631A/DS1731 respond with an ACK, and the transaction is finished with a STOP from the master.SCLSDASTART ConditionSTOP Condition……ACK (or NACK)From Receiver2-WIRE READSThe master can read data from the DS1631/DS1631A/DS1731 by issuing an Access Config, Access TH, Access TL, or Read Temperature command following the control byte (see Figures 9c and 9e). After receiving an ACK in response to the command, the master must generate a repeated START followed by a control byte with the same slave address as the first control byte. However, this time the R/W･･ bit must be a 1, which tells the DS1631/DS1631A/DS1731 that a “read” is being performed. After the DS1631/DS1631A/DS1731 send an ACK in response to this control byte, it begins transmitting the requested data on the next clock cycle. One byte of data will be transmitted when reading from the configuration register after which the master must respond with a NACK followed by a STOP. For two-byte reads (i.e., from the Temperature, T H, or T L register), the master must respond to the first data byte with an ACK and to the second byte with a NACK followed by a STOP. If only the most significant byte of data is needed, the master can issue a NACK followed by a STOP after reading the first data byte. COMMAND SETThe DS1631/DS1631A/DS1731 command set is detailed below:Start Convert T [ 51h ]Initiates temperature conversions. If the part is in one-shot mode (1SHOT = 1), only one conversion is performed. In continuous mode (1SHOT = 0), continuous temperature conversions are performed until a Stop Convert T command is issued.Stop Convert T [ 22h ]Stops temperature conversions when the device is in continuous conversion mode (1SHOT = 0).Read Temperature [ AAh ]Reads last converted temperature value from the 2-byte temperature register.Access TH [ A1h ]Reads or writes the 2-byte T H register.Access TL [ A2h ]Reads or writes the 2-byte T L register.Access Config [ ACh ]Reads or writes the 1-byte configuration register.Software POR [ 54h ]Initiates a software power-on-reset (POR), which stops temperature conversions and resets all registers and logic to their power-up states. The software POR allows the user to simulate cycling the power without actually powering down the device.DS1631/DS1631A/DS1731Figure 9 (a, b, c, d, e). 2-WIRE INTERFACE TIMINGTHERM = DS1631, DS1631A, or DS1731a ) I s s u e a "S t a r t C o n v e r t T ” o r “S t o p C o n v e r t T ” C o m m a n d(T H E R M )S C LS D A (T H E R M )d ) W r i te t o t h e T H o r T L R e g i s t e rS C S D (T H E R M )(T H E R M )L S D a t a B y t e (f r o m M a s t e r )(f r o m M a s t e r )A C K (T H E R M )A C K (T H E R M )e ) R e a dF r o m t h e T e m p e r a t u r e , T H , o r T L R e g i s t e r (T H E R M )S T A R TS C S D(f r o m T H E R M )……(T H E R M )(T H E R M )(M a s t e r )(f r o m T H E R M)(M a s t e r )(T H E R M )(T H E R M )b ) W r i t e t o t h e C o n f i g u r a t i o n R e g i s t e rS C S D (f r o m M a s t e r )(T H E R M )c ) R e ad F r o m t he C o nf ig u r a t i o n R e g i s t e r(T H E R M )S T A R T S C LS D A(f r o m T H E R M )(M a s t e r )(T H E R M )(T H E R M )DS1631/DS1631A/DS1731 OPERATION EXAMPLEIn this example, the master configures the DS1631/DS1631A/DS1731 (A1A2A3 = 000) for continuous conversions and thermostatic function.MASTER MODE THERMETER*MODEDATA(MSb first)COMMENTSTX RX START START condition from MASTER.TX RX90h MASTER sends control byte with R/W･･ = 0. RX TX ACK Acknowledge bit from THERMOMETER. TX RX ACh MASTER sends Access Config command. RX TX ACK Acknowledge bit from THERMOMETER.TX RX02h MASTER writes a data byte to the configuration register to put the THERMOMETER in continuous conversion mode and set the T OUT polarity to active high.RX TX ACK Acknowledge bit from THERMOMETER.TX RX STOP STOP condition from MASTER.TX RX START START condition from MASTER.TX RX90h MASTER sends control byte with R/W･･ = 0.RX TX ACK Acknowledge bit from THERMOMETER.TX RX A1h MASTER sends Access TH command.RX TX ACK Acknowledge bit from THERMOMETER.TX RX28h MASTER sends most significant data byte for T H = +40°C.RX TX ACK Acknowledge bit from THERMOMETER.TX RX00h MASTER sends least significant data byte for T H = +40°C.RX TX ACK Acknowledge bit from THERMOMETER.TX RX STOP STOP condition from MASTER.TX RX START START condition from MASTER.TX RX90h MASTER sends control byte with R/W･･ = 0.RX TX ACK Acknowledge bit from THERMOMETER.TX RX A2h MASTER sends Access TL command.RX TX ACK Acknowledge bit from THERMOMETER.TX RX0Ah MASTER sends most significant data byte for T L = +10°C.RX TX ACK Acknowledge bit from THERMOMETER.TX RX00h MASTER sends least significant data byte for T L = +10°C.RX TX ACK Acknowledge bit from THERMOMETER.TX RX STOP STOP condition from MASTER.TX RX START START condition from MASTER.TX RX90h MASTER sends control byte with R/W･･ = 0.RX TX ACK Acknowledge bit from THERMOMETER.TX RX51h MASTER sends Start Convert T command.RX TX ACK Acknowledge bit from THERMOMETER.TX RX STOP STOP condition from MASTER.*THERMOMETER = DS1631, DS1631A, or DS1731。

TL F 5816DS1631 DS3631 DS1632 DS3632 DS1633 DS3633 DS1634 DS3634CMOS Dual Peripheral DriversJuly 1992DS1631 DS3631 DS1632 DS3632 DS1633 DS3633 DS1634 DS3634CMOS Dual Peripheral DriversGeneral DescriptionThe DS1631series of dual peripheral drivers was designed to be a universal set of interface components for CMOS circuitsEach circuit has CMOS compatible inputs with thresholds that track as a function of V CC (approximately V CC ) The inputs are PNPs providing the high impedance necessary for interfacing with CMOSOutputs have high voltage capability minimum breakdown voltage is 56V at 250m AThe outputs are Darlington connected transistors This al-lows high current operation (300mA max)at low internal V CC current levels since base drive for the output transistor is obtained from the load in proportion to the required load-ing conditions This is essential in order to minimize loading on the CMOS logic supplyTypical V CC e 5V power is 28mW with both outputs ON V CC operating range is 4 5V to 15VThe circuit also features output transistor protection if the V CC supply is lost by forcing the output into the high impe-dance OFF state with the same breakdown levels as when V CC was appliedPin-outs are the same as the respective logic functions found in the following popular series of circuits DS75451 DS75461 This feature allows direct conversion of present systems to the MM74C CMOS family and DS1631series circuits with great power savingsThe DS1631series is also TTL compatible at V CC e 5VFeaturesY CMOS compatible inputs Y High impedance inputs PNP’s Y High output voltage breakdown 56V min Y High output current capability 300mA max YSame pin-outs and logic functions as DS75451and DS75461series circuitsYLow V CC power dissipation (28mW both outputs ‘‘ON’’at 5V)Connection Diagrams (Dual-In-Line and Metal Can Packages)TL F 5816–1Top ViewOrder Number DS1631J-8or DS3631NTL F 5816–2Top View Order Number DS1632J-8or DS3632N TL F 5816–3Top ViewOrder Number DS1633J-8or DS3633N TL F 5816–4Top ViewOrder Number DS1634J-8or DS3634NSee NS Package Number J08A or N08ETL F 5816–5Top View(Pin 4is electrically connected to the case )Order Number DS1631HTL F 5816–6Top View(Pin 4is electrically connected to the case )Order Number DS1632H TL F 5816–7Top View(Pin 4is electrically connected to the case )Order Number DS1633HTL F 5816–8Top View(Pin 4is electrically connected to the case )Order Number DS1634HSee NS Package Number H08CC 1995National Semiconductor Corporation RRD-B30M105 Printed in U S AAbsolute Maximum Ratings(Note1)If Military Aerospace specified devices are required please contact the National Semiconductor Sales Office Distributors for availability and specifications Supply Voltage16V Voltage at Inputs b0 3V to V CC a0 3V Output Voltage56V Storage Temperature Range b65 C to a150 C Maximum Power Dissipation at25 CCavity Package1133mW Molded Package1022mW TO-5Package787mW Lead Temperature(Soldering 4sec 260 C Derate cavity package7 6mW C above25 C derate molded package 8 2mW C above25 C derate TO-5package5 2mW C above25 C Operating ConditionsMin Max Units Supply Voltage V CCDS1631 DS1632 4 515V DS1633 DS1634DS3631 DS3632 4 7515V DS3633 DS3634Temperature T ADS1631 DS1632 b55a125 C DS1633 DS1634DS3631 DS3632 0a70 C DS3633 DS3634Electrical Characteristics(Notes2and3)Symbol Parameter Conditions Min Typ Max Units ALL CIRCUITSV IH Logical‘‘1’’Input Voltage(Figure1)V CC e5V3 52 5VV CC e10V8 05VV CC e15V12 57 5V V IL Logical‘‘0’’Input Voltage(Figure1)V CC e5V2 51 5VV CC e10V5 52 0VV CC e15V7 52 5V I IH Logical‘‘1’’Input Current V CC e15V V IN e15V (Figure2)0 110m A I IL Logical‘‘0’’Input Current V IN e0 4V (Figure3)V CC e5V b50b120m AV CC e15V b200b360m A V OH Output Breakdown Voltage V CC e15V I OH e250m A (Figure1)5665V V OL Output Low Voltage V CC e Min (Figure1)DS1631 DS1632 I OL e100mA0 851 1VDS1633 DS1634IOL e300mA1 11 4VV CC e Min (Figure1)DS3631 DS3632 I OL e100mA0 851 0VDS3633 DS3634IOL e300mA1 11 3V DS1631 DS3631I CC(0)Supply Currents V IN e0V (Figure4)V CC e5V Output Low711mAV CC e15V Both Drivers1420mA I CC(1)(Figure4)V CC e5V V IN e5V Output High23mAV CC e15V V IN e15V Both Drivers7 510mA t PD1Propagation to‘‘1’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 500ns(Figure5)t PD0Propagation to‘‘0’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 750ns(Figure5)DS1632 DS3632I CC(0)Supply Currents(Figure4)V CC e5V V IN e5VOutput Low 812mAV CC e15V V IN e15V1823mAI CC(1)V IN e0V (Figure4)V CC e5VOutput High 2 53 5mAV CC e15V914mA t PD1Propagation to‘‘1’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 500ns(Figure5)t PD0Propagation to‘‘0’’V CC e5V T A e25 C C L e15pF R L e50X V L e10V 750ns(Figure5)2Electrical Characteristics (Notes 2and 3)(Continued)Symbol Parameter Conditions MinTyp Max Units DS1633 DS3633I CC(0)Supply CurrentsV IN e 0V (Figure 4)V CC e 5V Output Low7 512mA V CC e 15V1623mA I CC(1)(Figure 4)V CC e 5V V IN e 5V Output High 24mA V CC e 15V V IN e 15V7 215mA t PD1Propagation to ‘‘1’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 500ns (Figure 5)t PD0Propagation to ‘‘0’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 750ns(Figure 5)DS1634 DS3634I CC(0)Supply Currents(Figure 4)V CC e 5V V IN e 5V Output Low 7 512mA V CC e 15V V IN e 15V 1823mA I CC(1)V IN e 0V (Figure 4)V CC e 5V Output High35mA V CC e 15V1118mA t PD1Propagation to ‘‘1’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 500ns (Figure 5)t PD0Propagation to ‘‘0’’V CC e 5V T A e 25 C C L e 15pF R L e 50X V L e 10V 750ns(Figure 5)Note 1 ‘‘Absolute Maximum Ratings’’are those values beyond which the safety of the device cannot be guaranteed Except for ‘‘Operating Temperature Range’’they are not meant to imply that the devices should be operated at these limits The table of ‘‘Electrical Characteristics’’provides conditions for actual device operationNote 2 Unless otherwise specified min max limits apply across the b 55 C to a 125 C temperature range for the DS1631 DS1632 DS1633and DS1634and across the 0 C to a 70 C range for the DS3631 DS3632 DS3633and DS3634 All typical values are for T A e 25 CNote 3 All currents into device pins shown as positive out of device pins as negative all voltages referenced to ground unless otherwise noted All values shown as max or min on absolute value basisTest CircuitsTL F 5816–9Input Other Output Circuit Under Input Apply Measure Test DS3631V IH V IH I OH V OH V IL V CC I OL V OL DS3632V IH V IH I OL V OL V IL V CC I OH V OH DS3633V IH GND I OH V OH V IL V IL I OL V OL DS3634V IH GND I OL V OL V ILV ILI OHV OHNote Each input is tested separatelyFIGURE 1 V IH V IL V OH V OL3Test Circuits (Continued)TL F 5816–10Each input is tested separatelyFIGURE 2 I IHTL F 5816–11Note A Each input is tested separatelyNote B When testing DS1633and DS1634input not under test is grounded For all other circuits it is at V CCFIGURE 3 I ILTL F 5816–12Both gates are tested simultaneouslyFIGURE 4 I CC for AND and NAND CircuitsSchematic Diagram (Equivalent Circuit)TL F 5816–154Switching Time WaveformsTL F 5816–13TL F 5816–14 Note1 The pulse generator has the following characteristics PRR e500kHz Z OUT 50XNote2 C L includes probe and jig capacitanceFIGURE5 Switching Times5Physical Dimensions inches(millimeters)Metal Can Package(H)Order Number DS1631H DS1632H DS1633H or DS1634HNS Package Number H08C6Physical Dimensions inches(millimeters)(Continued)Ceramic Dual-In-Line Package(J)Order Number DS1631J-8 DS1632J-8 DS1633J-8or DS1634J-8NS Package Number J08A7D S 1631 D S 3631 D S 1632 D S 3632 D S 1633 D S 3633 D S 1634 D S 3634C M O S D u a l P e r i p h e r a l D r i v e r sPhysical Dimensions inches (millimeters)(Continued)Molded Dual-In-Line Package (N)Order Number DS3631N DS3632NDS3633N and DS3634N NS Package Number N08ELIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL SEMICONDUCTOR CORPORATION As used herein 1 Life support devices or systems are devices or 2 A critical component is any component of a life systems which (a)are intended for surgical implant support device or system whose failure to perform can into the body or (b)support or sustain life and whose be reasonably expected to cause the failure of the life failure to perform when properly used in accordance support device or system or to affect its safety or with instructions for use provided in the labeling can effectivenessbe reasonably expected to result in a significant injury to the userNational Semiconductor National Semiconductor National Semiconductor National Semiconductor CorporationEuropeHong Kong LtdJapan Ltd1111West Bardin RoadFax (a 49)0-180-530858613th Floor Straight Block Tel 81-043-299-2309。

电台全部频率表0.5-1.8M 广播频段MF(AM) 525KHz-1605KHz 9KHz 中波调幅广播北京电台首都生活广播603中央电台中国之声639中央电台经济之声720中央电台文艺之声(第9套) 747北京电台新闻频道828/846国际电台HIT-FM 900北京电台体育频道927国际电台ROUND THE CLOCK 846/1008中央电台朝鲜语广播1206北京电台经济频道1026国际电台英语频道12511.8-30M 短波波段2182kHz 为无线的国际遇险频率4125 kHz频率用作2182 kHz频率的补充HF(SW) 3.5-29.7MHz 9KHz 短波调幅广播及单边带通讯玩具遥控器通信设备带宽(KHz)发射功率(mW)频率(MHz) 遥控设备带宽(KHz) 发射功率(W) 频率(MHz)1 <12 ≤100 26.965 1 ≤8 ≤1 26.9752 <12 ≤100 26.985 2 ≤8 ≤1 26.9953 <12 ≤100 27.005 3 ≤8 ≤1 27.0154 <12 ≤100 27.025 4 ≤8 ≤1 27.0455 <12 ≤100 27.055 5 ≤8 ≤1 27.0656 <12 ≤100 27.075 6 ≤8 ≤1 27.0957 <12 ≤100 27.105 7 ≤8 ≤1 27.1158 <12 ≤100 27.125 8 ≤8 ≤1 27.1459 <12 ≤100 27.165 9 ≤8 ≤1 27.19510 <12 ≤100 27.185 10 ≤8 ≤30-76〔59〕M 50M业余波段无绳使用频率划分表一座机频率(MHz) 发射频率(MHz)1 48.000 74.0002 48.025 74.0253 48.050 74.0504 48.075 74.0755 48.100 74.1006 48.125 74.1257 48.150 74.1508 48.175 74.1759 48.200 74.20010 48.225 74.22511 48.250 74.25012 48.275 74.27513 48.300 74.30014 48.325 74.32515 48.350 74.35016 1.665 48.37517 1.690 48.40018 1.715 48.42519 1.690 48.45020 1.740 48.475无绳使用频率划分表二座机发射(MHz) 发射(MHz)1 45.000 48.0002 45.025 48.0253 45.050 48.0504 45.075 48.0755 45.100 48.1006 45.125 48.1257 45.150 48.1508 45.175 48.1759 45.200 48.20010 45.225 48.225VHF 48.5-92MHz 8MHz 电视及数据广播中国电视频道频率划分表(单位:MHz)频道号/频率范围图像载频伴音载频VHF-L (Ⅰ)DS-1 48.5～56.5 49.75 56.25DS-2 56.5～64.5 57.75 64.25DS-3 64.5～72.5 65.75 72.25DS-4 76.0～84.0 77.25 83.75DS-5 84.0～92.0 85.25 91.7564.5-72.5M 〔广播为主〕76〔59〕-108M 调频广播VHF(FM) 88-108MHz 150KHz 调频广播及数据广播北京87.6 北京人民广播电台文艺台北京88.2 中国国际广播电台EasyFM北京88.7 中国国际广播电台北京90.0 中央人民广播电台第三套节目文艺调频北京91.5 中国国际广播电台EasyFM北京96.6 中央人民广播电台第二套节目经济频道北京97.4 北京人民广播电台音乐台北京99.6 中央人民广播电台第二套节目北京101.8 中央人民广播电台第四套节目民族广播北京103.9 北京人民广播电台交通台北京106.1 中央人民广播电台第一套节目综合频道108-137M 航空波段121.5MHz频率用于遇险和紧急时的无线134.200 北京空管北京地区航空频率表及收听教程1276：ATIS1181：TOWER 塔台1216：DELIVERY 放行1217：GROUND CONTROL 地面管制1190：ARRIVAL 进场1185：APPROUCH 进近1197：DEPATURE 离场1256：BEIJING CONTROL 北京区调1283：RAIDER 北京雷达1232：DA LIAN CONTROL 大连区调1132，1134 类似区调中文名称英文名称呼号区调Area control centre Beijing Control近进Approach control Beijing Aproach离场Approach control radar arrival Beijing Arrival进场Approach control radar departures Beijing Departure塔台Aerodrome control Beijing Tower地面Surface movement control Beijing Ground放行Clearance delivery Beijing Delivery精密近进雷达Precision approach radar Beijing Precision机坪Apron control Beijing Apron签派Company dispatch Air China Dispatch航空术语注解：via：经过squawk:应答机编码。

OPTICAL MODULENETWORK CABLESRECOMMENDED OPTIONSWIRELESS BRIDGEAGGREGATION & CORE ETHERNET SWITCHINDUSTRIAL POE ETHERNET SWITCH≤ 100-ch IPCTypeModel Aggregation switchDS-3E0524TFAccess switch DS-3E01(3)xxP-E(B)Access switchDS-3E01(3)xxP-E/M(B)Access switch DS-3E05xxP-E Access switch DS-3E05xx-EOptical moduleHK-SFP-1.25G-1310-DF-MM100-ch < IPC ≤ 300-chTypeModel Aggregation switch DS-3E2528Access switch DS-3E13xxP-E Access switch DS-3E01(3)xxP-E(B)Access switch DS-3E05xxP-E Access switch DS-3E05xx-E Optical moduleHK-SFP-1.25G-20-1310HK-SFP-1.25G-20-1550300-ch < IPC ≤ 500-chType Model Core switch DS-3E3756TF Core switch DS-3E3740Aggregation switchDS-3E2528Access switch DS-3E23xxP-E Access switch DS-3E05xxP-E Access switch DS-3E01(3)xxP-E(B)Optical moduleHK-SFP-1.25G-20-1310HK-SFP-1.25G-20-1550ModelImageDescriptionHK-SFP-1.25G-20-1310TX 1310 nm/1.25G, RX 1550 nm/1.25G, LC, single mode and single fiber, 20 km, 0~70°C, SFPHK-SFP-1.25G-20-1550TX 1550 nm/1.25G, RX 1310 nm/1.25G, LC, single mode and single fiber, 20 km, 0~70°C, SFPHK-SFP-1.25G-1310-DF-MMTX 1310 nm/1.25G, RX 1310 nm/1.25G, LC, Multi mode and duplex fiber, 1 km, 0~70°C, SFPHK-SFP-1.25G-20-1310-DF TX 1310 nm/1.25G, RX 1310 nm/1.25G, LC, Single mode and duplex fiber, 20 km, 0~70°C, SFPHK-SFP+-10G-20-1270TX 1270 nm/10G, RX 1330 nm/10G, LC, single mode and single fiber, 20 km, 0~70°C, SFP+HK-SFP+-10G-20-1330TX 1330 nm/10G, RX 1270 nm/10G, LC, single mode and single fiber, 20 km, 0~70°C, SFP+Outdoor wireless bridgeElevator wireless bridgeModelDS-3WF01C-2N/ODS-3WF02C-5N/ODS-3WF03CDS-3WF0AC-2NTDS-3WF01C-2NDescriptionSupports point-to-point &point-to-multipoint;Range up to 3 km; 802.11 b/g/n, Built-in 12 dBiantenna up to 150 Mbps; Output power 27 dBm; Angle Horizontal: 60° Vertical: 30°; IP65;Supports point-to-point & point-to-multipoint; Range up to 5 km; 802.11 a/n, Built-in 10 dBi 2×2 MIMO antenna up to 300 Mbps; Output power 24 dBm; Angle Horizontal: 60° Vertical: 16°; IP65;Supports point-to-point & point-to-multipoint; Range up to 15 km; 802.11a/n, Built-in 15dBi 2×2 MIMO antenna with 300 Mbps; Output power 27 dBm; Angle Horizontal: 40° Vertical: 15°; IP65;Supports point-to-point, distance 100 m; IEEE 802.11b/g/n, Built-in 8dBi antenna; Output power 20 dBm; Angle Horizontal: 60° Vertical: 30°; Working temperature: -30 ~65°C; Plug and play, no initial setting;Supports point-to-point, distance 500 m; IEEE 802.11b/g/n, Built-in 6dBi antenna; Output power 27 dBm; Angle Horizontal: 65° Vertical: 60°; Working temperature: -30 ~65°C;Plug and play, no initial setting;ModelDS-1LN5E-SDS-1LN6-UUDS-1LN5E-E/EDS-1LN6-UE-WDescriptionUTP CAT 5E, 305 meters Core diameter: 0.5 mm Solid copper,CM,grayUTP CAT 6, 305 meters Core diameter: 0.565 mm Solid copper, CM, orangeUTP CAT 5E, 305 meters Core diameter: 0.45 mm Solid copper, CMX,grayUTP CAT 6, 305 meters, Core diameter: 0.53 mm Solid copper, CM,whiteModelDS-3E0524TFDS-3E2528DS-3E3740DS-3E3756TFManagement Unmanaged Full-managed Full-managed Full-managed Ports12 × Gigabit RJ45 ports 12 × Gigabit SFP ports24 × Gigabit RJ45 ports 4 × Gigabit SFP ports32 × Gigabit RJ45 ports 8 × 10G SFP+ ports24 × Gigabit RJ45 ports 24 × Gigabit SFP ports 8 × 10G SFP+ portsPacket Forwarding Rate 35.7 Mpps 42 Mpps 136 Mpps 136 Mpps Switching Capacity 48 Gbps 56 Gbps 224 Gbps 256 GbpsMAC Address Table 16 K 8 K64 K64 KManagement Mode -Console, Telnet, SSH2.0, Web, SNMP v1/v2/v3, TFTP, RMONOther Software Features-STP, VLAN, Mirroring, IGMP Snoopingand IGMP v1/v2, L2/L3/L4 ACL, LACP,EAPS, ERPSSTP, VLAN, Mirroring, IGMP Snooping and IGMP v1/v2, L2/L3/L4 ACL, LACP, EAPS,Operating Temperature -5°C~50°C0°C~45°C0°C~45°C0°C~45°C Dimension (440 × 186.5 × 44.5) mm (440 × 230 × 45) mm (442.5 × 315 × 44) mm (442.5 × 350 × 44) mmPower SupplyModelELG-150-48AImageOutput Voltage 48 VRated Current 3.13 ARated Power 150 WOperating Temperature-40~90°CIP Rating IP65AccessoryOptional accessory for industrial PoEswitchIndustrial switchModelDS-3T0306PDS-3T0310PManagement UnmanagedUnmanagedPorts 4 × 10/100 Mbps PoE RJ45 ports2 × Gigabit uplink SFP ports 8 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit uplink SFP ports PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget≤ 120 W ≤ 240 W Packet Forwarding Rate 3.6 Mpps 4.2 Mpps Switching Capacity 8.8 Gbps 8.8 Gbps MAC Address Table 4 K 4 K Surge Protection 2 KV 2 KV Operating Temperature -40°C~75°C -40°C~75°C Dimension(155 × 130 × 42) mm(170 × 156 × 42) mmUNMANAGED NON-POE ETHERNET SWITCHUNMANAGED POE ETHERNET SWITCHMANAGED POE ETHERNET SWITCHUNMANAGED SWITCHIEEE 802.3bt Standard Hi-PoE, Max. 90 W for One PortIEEE 802.3bt standard Hi-PoE port provides max. 90 W power supply for high power devices such as domes.Up to 300 m Long Range PoE TransmissionBased on all series of camera tests with Hikvisionnetwork cables, up to 300 m long range PoE transmission is provided.Intelligent PoE ManagementWhen the power supply exceeds the limit, PoE ports intelligently manage the power supply, which extends the switch lifetime.4/8-Core Adaptive Power Supply with Less Power Loss8-core power supply reduces the power loss on cables.6KV Surge Protection to Improve Reliability in Harsh EnvironmentThe built-in surge protection device protects the switch from the sudden lightning surge in harsh environment.Design for Video TransmissionVIP port ensures important data transmission when network congestion occurs.Hi-PoE SwitchesModelDS-3E0106HP-EDS-3E0310HP-EPorts1 × 10/100 Mbps Hi-PoE port 3 × 10/100 Mbps PoE ports2 × 10/100 Mbps RJ45 ports 1 × 10/100 Mbps Hi-PoE port 7 × 10/100 Mbps PoE ports 2 × Gigabit RJ45 ports PoE Standards Port 1: IEEE 802.3af, IEEE 802.3at, IEEE802.3btPorts 2 to 4: IEEE 802.3af, IEEE 802.3atPort 1: IEEE 802.3af, IEEE 802.3at, IEEE802.3btPorts 2 to 8: IEEE 802.3af, IEEE 802.3atPoE Budget 60 W 110 W Max. port PoE power Port 1: 60 W Ports 2 to 4: 30 W Port 1: 90 W Ports 2 to 8: 30 W PoE Extend Mode Max. 300 m, Port 1-4Max. 300 m, Port 1-8Packet Forwarding Rate 0.893 Mpps 4.166 Mpps Switching Capacity 1.2 Gbps 5.6 Gbps MAC Address Table 2 K 16 K Surge Protection 6 KV 6 KV Operating Temperature-10°C~55°C -10°C~55°CDimension(145 × 25.6 × 68.45) mm(217.6 × 27.8 × 103.35) mm10/100 Mbps SwitchesModelDS-3E0105P-E/M(B)DS-3E0109P-E/M(B)DS-3E0318P-E/M(B)DS-3E0326P-E/M(B)DS-3E0105P-E(B)DS-3E0109P-E(C)DS-3E0318P-E(B)DS-3E0326P-E(B)Ports4 × 10/100 Mbps PoE RJ45 ports 1 × 10/100 Mbps uplink RJ45 port8 × 10/100 Mbps PoE RJ45 ports 1 × 10/100 Mbps uplink RJ45 port16 × 10/100 Mbps PoE RJ45 ports 1 × Gigabit uplink RJ45 port 1 × Gigabit uplink SFP port 24 × 10/100 Mbps PoE RJ45 ports1 × Gigabit uplink RJ45 port1 × Gigabit uplink SFP port4 × 10/100 Mbps PoE RJ45 ports1 × 10/100 Mbps uplink RJ45 port8 × 10/100 Mbps PoE RJ45 ports1 × 10/100 Mbps uplink RJ45 port16 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)24 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45Ports and 2 SFP Ports)PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget35 W60 W130 W230 W60 W115 W 230 W370 WPoE Extend Mode Max.300 m, Port 1-4Max. 300 m, Port 1-8Max. 300 m, Port 9-16Max. 300 m, Port 17-24Max 300 m, Port 1-4Max 300 m, Port 1-8Max. 300 m, Port 9-16Max. 300 m, Port 17-24Packet Forwarding Rate0.744 Mpps 1.34 Mpps 5.36 Mpps 6.55 Mpps 0.74 Mpps 1.34 Mpps 5.36 Mpps 6.55 Mpps Switching Capacity1 Gbps 1.8 Gbps 7.2 Gbps 8.8 Gbps 1 Gbps 1.8 Gbps 7.2 Gbps 8.8 Gbps MAC Address Table 1 K 2 K 4 K 4 K 1 K 2 K 4 K 4 K Surge Protection 6 KV 6 KV 6 KV 6 KV 6 KV 6 KV 6 KV 6 KV Operating Temperature-10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C Dimension(105 × 27.6 × 83.1)mm(170 × 27.6 × 93.1) mm(266 × 44.5 × 220.8) mm(335 × 44.5 × 226) mm(105 × 27.6 × 83.1) mm(170 × 27.6 × 93.1) mm(440 × 44 × 220.8) mm(440 × 44 × 220.8) mmGigabit SwitchesModel DS-3E0505P-EDS-3E0510P-EDS-3E0518P-EDS-3E0526P-EPorts4 × Gigabit PoE RJ45 ports1 × Gigabit RJ45 port 8 × Gigabit PoE RJ45 ports 1 × Gigabit RJ45 port 1 × Gigabit SFP port 16 × Gigabit PoE RJ45 ports 1 × Gigabit RJ45 port 1 × Gigabit SFP port 24 × Gigabit PoE RJ45 ports 1 × Gigabit RJ45 port 1 × Gigabit SFP port PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget60 W 110 W 230 W 370 W Packet Forwarding Rate 7.44 Mpps 14.88 Mpps 26.784 Mpps 38.688 Mpps Switching Capacity 10 Gbps 20 Gbps 36 Gbps 52 Gbps MAC Address Table 2 K 4 K 8 K 8 K Surge Protection6 KV 6 KV 6 KV 6 KV Operating Temperature-10°C~55°C -10°C~55°C-10°C~55°C -10°C~55°C Dimension(105 × 27.6 × 83.1) mm(217.6 × 27.8 × 108.55) mm(440 × 44 × 220.8) mm(440 × 44 × 220.8) mmModel DS-3E0105D-EDS-3E0108D-EDS-3E0505D-EDS-3E0508D-EDS-3E0508-EDS-3E0516-EDS-3E0524-EPorts 5 × 10/100 Mbps RJ45 ports 8 × 10/100 Mbps RJ45 ports 5 × Gigabit RJ45 ports 8 × Gigabit RJ45 ports 8 × Gigabit RJ45 ports 16 × Gigabit RJ45 ports 24 × Gigabit RJ45 portsSwitching Capacity 1 Gbps 1.6 Gbps 10 Gbps 16 Gbps 16 Gbps 32 Gbps 48 GbpsPacket Forwarding Rate 0.744 Mpps 1.1904 Mpps 7.44 Mpps 11.904 Mpps 11.9 Mpps 23.8 Mpps 35.7 MppsMAC Address Table 1 K 1 K 2 K 4 K 4 K 8 K 8 KSurge Protection ---- 4 KV 4 KV 4 KVOperating Temperature 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°CDimension (82 × 52 × 22.4) mm (124 × 59 × 23.2) mm (92.8 × 65.8 × 22.8) mm (142 × 90 × 23) mm (186.7 × 106.7 × 33.3) mm (440 × 178.8 × 44) mm (440 × 178.8 × 44) mmModel DS-3E1310P-EDS-3E1318P-EDS-3E1326P-EDS-3E2310PDS-3E2318PDS-3E2326PDS-3E2510PDS-3E2528PManagement Web-managed Web-managed Web-managed Full-managed Full-managed Full-managed Full-managed Full-managed Ports 8 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)16 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)24 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)8 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)16 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)24 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45Ports and 2 SFP Ports)8 × Gigabit PoE RJ45 ports 2 × Gigabit SFP ports 24 × Gigabit PoE RJ45 ports 4 × Gigabit SFP ports PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget 123 W 230 W370 W125 W 300 W 380 W 125 W 380 W PoE Extend Mode Max. 250 m, Port 1-8Max. 250 m, Port 1-16Max. 250 m, Port 1-24-----Packet Forwarding Rate 1.34 Mpps 5.36 Mpps 6.55 Mpps 5.6 Mpps 8.4 Mpps 9.6 Mpps 15 Mpps 42 Mpps Switching Capacity5.4 Gbps 7.2 Gbps 8.8 Gbps 10 Gbps 21.2 Gbps 22.8 Gbps 20 Gbps 56 Gbps MAC Address Table 4 K4 K4 K8 K8 K8 K8 K8 KManagement Mode SNMP v1/v2, WEB managementConsole, Telnet, SSH2.0, Web, SNMP v1/v2/v3, TFTP, RMONOther Software Features STP, VLAN, Mirroring, IGMP Snooping and IGMP v1/v2STP, VLAN, Mirroring, IGMP Snooping and IGMP v1/v2, L2/L3/L4 ACL, LACP, EAPS, ERPSSurge Protection 4 KV 4 KV 4 KV 4 KV 4 KV 4 KV 4 KV 4 KV Operating Temperature 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~45°C 0°C~45°C Dimension(294 × 165.8 × 44) mm(440 × 285 × 43) mm(440 × 285 × 43) mm(280 × 179 × 45) mm(440 × 232 × 44) mm(440 × 232 × 44) mm(280 × 179 × 45) mm(440 × 232 × 45) mm。

34HM | MOTOR PROTECTORSHermetically Sealed On-Winding, 3-Phase SPECIFICATIONSFProduct DescriptionLine Break Operation• Protect WYE (Star) wound 3-phase motors from 1 to 6HP. Used in refrigeration compressors, submersible pumps and other restrictive environments.shape allows for close coupling to motor windings.• Hermetic reliability designed for leakage rates less than 1 x 10-9 cc per second of air with 1 atmosphere pressure differential.• Klixon® snap-action discs assure positive make and break action and controlled temperature differential.• Designed for low and high side pressure applications.Klixon® 16HM motor protectors are line break automatic reset controls which are wired in series with the motor windings. These protectors are designed to track winding temperatures and to respond to changes in line current. When properly applied, the 16HM can provide protection againstmotor overheating under the following conditions:This protector is designed to protect 3-phase refrigeration and air conditioning compressor motors from excessive winding temperature; however, device to be installed directly on motor windings for closely coupled temperature monitoring, thus enhancing over-temperature protection against loss of refrigeration charge, low voltage locked rotor, and secondary single-phasing (loss of phase). The 34HM is designed to reduce installation costs by replacing pilot control systems with a simple, economical, compact device.The basic element of the 34HM is the famous Klixon® Snap ActMaximum Recommended Locked Rotor CurrentCurrent ratings are based on life test data which has demonstrated high reliability at 5K cycles (standard series) and 2K cycles (high capacity series) at 0.7 ower factor on Sensata life test boards. These capacities are intended as a guide for application work.Standard Operating TemperaturesDIAGRAMS34HM Hermetic Motor ProtectorElectrical SchematicWUnitInsmmW0.67017.0H1.14029.0P10.55614.1L1.17029.7P20.0892.3P30.2506.4A0.58514.9B1.08027.4Standard / High Capacity DeviceProtector ShellCompressorMotorWindings34HM CODE SYSTEMQuick ConnectsWire LeadsSleeves, etc.When making an inquiry on Klixon® hermetically sealed motor protectors, be certain to specify the entire part number for your application,AGENCY APPROVALS & CERTIFICATIONSPage 5CONTACT USSensata Technologies, Inc. (“Sensata”) data sheets are solely intended to assist designers (“Buyers”) who are developing systems thatincorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsiblefor using its independent analysis, evaluation and judgment in designing Buyer’s systems and products. Sensata data sheets havebeen created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than thatspecifically described in the published documentation for a particular data sheet. Sensata may make corrections, enhancements,improvements and other changes to its data sheets or components without notice.Buyers are authorized to use Sensata data sheets with the Sensata component(s) identified in each particular data sheet. HOWEVER, NOOTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, ANDNO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATA SHEETSARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATA SHEETS OR USEOF THE DATA SHEETS, EXPRESS, IMPLIED OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMSANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIETENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARDTO SENSATA DATA SHEETS OR USE THEREOF.All products are sold subject to Sensata’s terms and conditions of sale supplied at SENSATA ASSUMES NO LIABILITYFOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELYRESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS,AND ANY USE OF SENSATA COMPONENTS IN ITS APPLICATIONS, NOTWITHSTANDING ANY APPLICATIONS-RELATED INFORMATIONAmericas+1 (508) 236-2551electrical-protection-sales@sensata.comEurope, Middle East & Africa+1 (760) 597 7042*****************************************************.comChina +86 (21)2306 1651Japan +81 (45)277 7104Korea +82 (53) 644 9685India +91 (40)4033 9611Rest of Asia +886 (2) 27602006ext 2808。

—ABB MEASUREMENT & ANALYTICS | DATA SHEET ControlMaster CM15Universal process indicator, 1/8 DIN2CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Measurement made easyMaking process control easy—Comprehensive display of process status• Crystal-clear, full-color TFT display• User customizable—Exceptionally easy to use• Intuitive user interface and clear text prompts makeinstallation, commissioning and operation quick and simple—Comprehensive I/O• 2 universal inputs, 1 analog output and 1 relay fitted asstandard—Frequency input• Direct, high accuracy connection to electromagneticflowmeters—Totalization and counter functions• Calculation and display of flow total values• Pulse counting capability—Problem-solving capability• Flexible functionality including math and logic providingpower to solve application requirements—Duty / Assist pump control• Control of up to 6 pumps—OverviewThe ControlMaster CM15 is a feature-packed, 1/8 DIN, universal process indicator. A crystal-clear, full-color, TFT display shows operators exactly the information they need to know and provides operation and configuration menus in full text making the CM15 intuitive to use and very quick to install and commission.Available as a basic indication-only model, or enhanced through plug and play function keys and I/O modules, the CM15 offers totalization, level, math, logic, counter and alarm functions making it extremely flexible and able to solve many demanding application requirements.MODBUS and Ethernet communication options ensure easy integration and connectivity to supervisory or control systems.3CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q4CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Highly scalableThe CM15 is highly scalable in terms of both hardware and software, enabling it to meet the demands of simple indication duties through to more complex applications. The basic CM15 provides basic indication, totalization and level functionality. Templates and functionality can be increased by adding function keys to the basic model as shown in Figure 1, while retaining previous templates and functionality.Figure 1 Overview of template options—Powerful operator displayThe CM15 features a full-color 5.5 cm (2.2 in.) display fordisplaying detailed process information to the user. Process details such as alarm messages and diagnostic information are displayed clearly in full text without the need for difficult-to-read scrolling displays.Example of an operator pageAutomatic selection of standard display templatesimmediately makes best use of the CM15’s display. Extensive customization features then enable the displayed informationto be tailored to suit the process requirements.Figure 2Single PV indication template displayFigure 3 Dual PV and totalization displayDiagnostics and alarm status displayThe diagnostics and alarm status display provides detailed information on any active alarm or diagnostic condition. The operator can see, at-a-glance, the status of any alarmcondition present within the process. Additionally, diagnostic messages are presented clearly to the operator, enabling rapid notification and simple diagnosis of any critical instrument status condition.Historical information of diagnostic messages can also beviewed in the indicator’s diagnostic log.Figure 4 Alarm status display—Exceptionally easy to useThe CM15’s full text display and simple-to-navigate, pop-up menu makes operation exceptionally easy.A programmable soft key enables commonly used functions, such as alarm acknowledgement and display selection, to beaccessed easily by the operator.Figure 5Pop-up menuFigure 6 Programmable soft key5CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Problem solving flexibilityExtensive functionality is available to provide flexible problem-solving capability; making the CM15 much more than just a process indicator.Process alarms8 independent process alarms can monitor any analog signal within the CM15, enabling extensive process monitoring capability. Alarms can be used to drive physical outputs or soft-wired to other functions within the indicator.Real-time alarmsThe ‘alarm clock’ functionality provided by the CM15’s real-time alarms enables time-of-day decisions to be introduced into the indicator’s actions or specific functions to be triggered routinely at specified times.Delay timersEvent sequencing is enabled through the use of the CM15’s delay timers. A predetermined delay and output duration can be programmed into each delay timer and timers can be linked together.Custom linearizersThe CM15 has 2 independent 20-point custom linearizers that can be applied to any analog signal within the indicator. These linearizers can be used in applications such as level-to-volume conversion of a non-linear tank level or to accommodate special input signals or output devices.Math8 math blocks provide arithmetic, averaging, min. / max. hold, square root and signal switching functionality. Simple equations can be performed in a single math block or multiple math blocks can be nested together to construct complex equations.Signal switching ‘multiplexing’ math blocks switch between 2 analog signals based on a trigger signal. For example, a backup sensor could be selected automatically on failure of a primary sensor.Logic8 comprehensive logic equations provide powerful interlock functionality. Inputs and outputs of the logic equations can be soft-wired to any digital signal within the indicator to maximize flexibility.Totalizer2 totalizers are available on the CM15. The totalizers can configured to perform multiple functions:• i ntegration against an analog signal to totalize flow• c ounting digital pulses• totalization of flow based on a frequency signal from an electromagnetic flow meterFrequency inputFor maximum accuracy the CM15 can accept a frequency signal from an electromagnetic flow meter. The frequency signal can be totalized and displayed; an instantaneous flow rate can also be calculated and displayed on screen.—CommunicationsExtensive communication options enable the CM15 to be integrated into larger control systems easily or connected to other process instrumentation.RS 485 MODBUSUsing RS 485 MODBUS, values and status can be communicated to and from the indicator in real-time via an RS 485 connection.EthernetOptional Ethernet communications enable ControlMaster to be integrated in to an Ethernet network quickly. The following functionality is provided:• Email–Notification of a critical process event or status can bemade by email. Multiple events can trigger an emailthat can be sent to multiple recipients• Webserver–ControlMaster’s integrated webserver enables thecurrent status of the process and indicator to beviewed remotely using a standard web browserFigure 7 Webserver• MODBUS TCP–Process values and status can be communicated to andfrom the CM15 in real-time using MODBUS TCP,enabling it to be integrated easily into larger controlsystems or connected to a data recorder.6CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—PC ConfigurationThe CM15 can be fully configured using ABB’s ConfigPilotsoftware. Available free of charge, ConfigPilot enables off-line creation and editing of configuration files. Configurations are transferred to and from a controller via its standard IrDA portand a USB IrDA adapter.Figure 8Analog input configurationFigure 9Profile configurationFigure 10 Configuration report generation7CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Bank controlBank control enables improved control of multi-element output devices such as banks of heaters, pumps and fans. Aimed at minimizing wear caused by over-use of one specific ‘duty’ device, bank control enables wear to be levelled bysharing duty and assist handling between every device in the bank.Ideal for pump control applications in the water and waste water industry. Up to six pumps can be controlled each with independent on and off trip points (see Figure 11). The CM15’s universal process input, complete with transmitter power supply, makes it suitable for connection to many kinds of standard level transmitters.Bank control provides users the choice of either ‘Rotate’ or ‘First In, First Out (FIFO)’ wear-levelling schedules. Rotate cycles which pump is the first to switch on during a pumping event. FIFO ensures that the last pump to switch of is the last pump to be called again. Figure 12 details Rotate and FIFOcycling for a 3-pump system.Figure 11Independent on and off trip pointsPump 2Pump 2Pump 1Trip 1LevelRotateFIFOTrip 3Trip 2Trip 4Pump 1Pump 3Pump 3Figure 12 Rotate and FIFO cycling for a 3-pump system8CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Application templatesTo minimize commissioning time, the CM15 features up to 8 preconfigured templates. Simply selecting the required template configures the CM15’s function blocks and display automatically. Customization of the preconfigured templates is also possible, providing the flexibility to create customized solutions.Single PV indicationThis template provides indication of a single process value. The example in Figure 13 shows the CM15 being used to indicate thetemperature of a heat treatment furnace.FurnaceLoadBurnerFigure 13 Single PV indicationSingle PV with totalizationThis template adds totalization to the single PV indication template. In the example in Figure 14, the CM15 is monitoring a pipeline to provide indication of instantaneous flow rate and totalization and could be connected to the flowmeter via ananalog (for example 4 to 20 mA) or frequency signal.Figure 14 Single PV with totalizationSingle totalizerThis template provides totalization only. Figure 15 shows the CM15 being used to count the number of products passing a specific point on a production line.Figure 15 Single totalizer9CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…Application templatesSingle level with volumeThe single level with volume template adds level specific functions to the single PV indication template. The volume contained within a vessel can be calculated and indicated and products of varying specific gravity accounted for. In Figure 16, the CM15 is shown monitoring the level of product in a storage tank and calculating the associated volume.Figure 16 Single level with volumeDual indicationThis template provides indication of 2 process values. Variations of this template are available providing dual PV withtotalization, dual totalization or dual level indication. The example in Figure 17 shows a single CM15 providing indication of boththe flow through, and temperature of, a heat exchanger.Product inletFigure 17 Dual indication10CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—SpecificationOperationDisplayColor, 1/4 VGA TFT, liquid crystal display (LCD)with built-in backlightLanguageEnglish, German, French, Italian and Spanish Operator keypad4 tactile membrane keysSecurityPassword protectionBasic / Advanced – user-assigned password protection (not set at factory)Standard functionsBase templatesSingle PV indicationSingle PV indication + totalizerCounterSingle PV indication + levelDual templatesDual PV indicationDual PV indication + totalizerDual counterDual PV indication + levelProcess alarmsNumber8TypesHigh / Low processHigh / Low latchSourceFully configurable(for example – PV, Analog input, Math block inbuilt) HysteresisLevel and timeAlarm enableEnable / Disable individual alarms via a digital signal AcknowledgementVia front panel keys or digital signalsReal-time alarms*Number2ProgrammableTimeDayDuration Math blocks*Number8Operators+, –, x, /Average, Maximum, MinimumHigh / Low / Median selectSquare rootMultiplexerDelay timers*Number2ProgrammableDelayDurationLogic equations*Number8Elements15 per equationOperatorsOR, AND, NOR, NAND, NOT, EXORCustom linearizer*Number2Elements20 breakpointsBank control*Number of outputs6Wear levellingRotate or FIFOTotalizerNumber **Up to 2TypeAnalog, digital, frequency or pulseStatistical calculationsAverage, maximum, minimum (for analog signals) Update rate125 ms* Functionality level ‘Standard’ and above only** Single totalizer available with base functionality, dual totalizers available with dual functionality11CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…SpecificationAnalog inputsUniversal process inputsNumber1 standardTypeVoltageCurrentResistance (Ω)3-Wire RTDThermocoupleDigital volt-freeDigital 24 VFrequencyNon-universal process inputsNumber1 standardTypeVoltageCurrentThermocouple *Digital volt-freeDigital 24 VThermocouple typesB, E, J, K, L, N, R, S, TResistance thermometerPt100Other linearizations√x, x3/2, x5/2, custom linearizationDigital filterProgrammable 0 to 60 sDisplay range–9999 to 99999Update rate125 msCommon mode noise rejection> 120 dB at 50 / 60 Hz with 300 Ω imbalance resistance Normal (series) mode noise rejection > 60 dB at 50 / 60 HzCJC rejection ratioStability0.05 °C/°C change in ambient temperature Temperature stability0.02 %/°C or 2 µV/°C (1 µV/°F)* Only if universal process input is configured as ‘Thermocouple’Long term (input) drift< 0.1 % of reading or 10 µV annuallyInput impedance> 10 MΩ (mV input)10 Ω (mA input)InputsThermocouple Maximum range °C (°F)Accuracy (% of reading) B–18 to 1800(0 to 3270)0.1 % or ±2 °C (3.6 °F)(above 200 °C [392 °F]) * E–100 to 900(–140 to 1650)0.1 % or ±0.5 °C (0.9 °F)J–100 to 900(–140 to 1650)0.1 % or ±0.5 °C (0.9 °F)K–100 to 1300(–140 to 2350)0.1 % or ±0.5 °C (0.9 °F)L–100 to 900(–140 to 1650)0.1 % or ±1.5 °C (2.7 °F)N–200 to 1300(–325 to 2350)0.1 % or ±0.5 °C (0.9 °F)R–18 to 1700(0 to 3000)0.1 % or ±1 °C (1.8 °F)(above 300 °C [540 °F]) * S–18 to 1700(0 to 3000)0.1 % or ±1 °C (1.8 °F)(above 200 °C [392 °F]) * T–250 to 300(–400 to 550)0.1 % or ±0.5 °C (0.9 °F)(above –150 °C [–238 °F]) * * Accuracy is not guaranteed at temperatures below this valueRTD Maximum range °C (°F)Accuracy (% of reading) Pt100–200 to 600(–325 to 1100)0.1 % or ±0.5 °C (0.9 °F)Linear inputs Standard analog input Accuracy (% of reading) Millivolts0 to 150 mV0.1 % or ±20 µV Milliamps0 to 45 mA0.2 % or ±4 µA Volts0 to 25 V0.2 % or ±20 mV Resistance (low)0 to 550 Ω0.2 % or ±0.1 ΩResistance (high)0 to 10 kΩ0.5 % or ±10 ΩSample Interval125 ms per sampleDigital inputsType Volt-free or 24 V Minimum pulsedurationSingle input configured – 250 msBoth inputs configured as analog or digital – 500 msFrequency input*Frequency range1-signal0-signal0 to 6000 Hz15 to 30 V–3 to 5 V *For use with devices with open collector outputs12CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. QOutputsRetransmission outputsNumber2 (1 standard, 1 optional)IsolationGalvanically isolated from the rest of the circuitry,500 V for 1 minuteAnalog range0 to 20 mA programmableLoad750 Ω max.Accuracy0.25 % of output or ±10 µARelaysNumber4 (1 standard, 3 optional)TypeStandard with changeover contactsOptional contacts selectable as NO or NC (by jumper) Relay 1 contact rating5 A, 240 VRelay 2, 3 and 4 contact ratings at maximum ambient temperature of 40 °C (104 °F)5 A, 240 VRelay 2, 3 and 4 contact ratings at maximum ambient temperature of 55 °C (131 °F)2 A, 240 VUpdate rate125 msDigital I/ONumber2 (optional)TypeUser-programmable as input or outputMinimum input pulse duration – 125 msInputVolt-free or 24 V DC1-signal 15 to 30 V0-signal –3 to 5 VConforms to IEC 61131-2OutputOpen collector output30 V, 100 mA max. switchedConforms to IEC 61131-2Update rate125 ms2-Wire transmitter power supplyNumber1 standardVoltage24 V DCDrive2 loops, 45 mA municationsNote. Only one communications option can be fitted per indicator.IrDA configuration port (standard)Baud rateUp to 115 kBaudDistanceUp to 1 m (3 ft)FunctionsFirmware upgradeConfiguration upload / downloadEthernet (optional)Type10BaseTConnectorRJ 45ProtocolsTCP/IPHTTPMODBUS TCP (Slave)Web serverBuilt-in – enables remote monitoring using standard web browsersEmail• Can be configured to be sent on the occurrence of a specified event• Up to 3 recipients• Up to 4 trigger sources with configurable tag MODBUS* RTU (optional)Baud rateUp to 115 kBaudIsolationGalvanically isolated from the rest of the circuitry,500 V DC for 1 minuteEMCEmissions & immunityMeets requirements of IEC 61326 for an industrialenvironment* MODBUS is a registered trademark of the MODBUS-IDA organization13CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…SpecificationEnvironmentalOperating temperature range0 to 55 °C (32 to 131 °F) *Operating humidity range5 to 95 % RH (non-condensing)Storage temperature range–20 to 70 °C (–4 to 158 °F)Enclosure sealingFront faceIP 66 & NEMA 4XRest of enclosureIP 20VibrationConforms to EN60068–2–6SafetyApprovals and certificationsEN 61010-1cULusGeneral safety• Overvoltage Class III on mains, Class II on inputs and outputs• Pollution category 2• Insulation category 2IsolationAnalog inputs CommsCPUAnalog output 1Digital I/OAnalog output 2Mains supply Transmitter power supply Relays Key= Isolation* Restrictions may apply – refer to ‘Relays’ on page 13ElectricalSupply ranges• 100 to 240 V AC ±10 % (90 V min. to 264 V max.)50 / 60 Hz• 10 to 36 V DC (optional)Power consumption10 W max.Power interruption protectionNo effect for interrupts of up to 60 ms PhysicalSize50 x 97 x 141 mm (2.0 x 3.8 x 5.5 in.)Weight0.38 kg (0.84 lb) approx. (unpacked)Panel cutout45 x 92 (1.8 x 3.6 in.), 121 mm (4.8 in.) behind panel Case materialGlass-filled polycarbonate14CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Electrical connectionsStandard connections Analog input 1Analog output 2Digital I/O 1Digital output +24 V Ext.Digital I/O 2Digital I/O –Analog input 2Analog / Digital output 1Relay output 1Relay output 2Relay output 2Relay output 3Relay output 4C10 to 36 V DCOption board 1Option board 1a—Overall dimensionsDimensions in mm (in.)–0+0.8—Standard accessoriesIncluded with each controller:• Panel mounting clamps • Instruction manual • Bezel release tool• Cold junction thermistor—Optional accessories• ConfigPilot PC configuration kit CM30/0715• DIN rail mounting kit CM10/0715• After-sales engineered configuration service ENG/IND15CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Ordering informationControlmaster CM15 universal process indicator, 1/8 DIN CM15/X X X X X X X/XXX OPT I/O build2 analog inputs, 1 analog O/P and 1 relay (Basic)2 analog inputs, 1 analog output and 2 relays (Basic + option board 1a)2 analog inputs, 2 analog outputs, 2 digital I/O and 4 relays (Basic + option board 1)0 1 2Template / Functionality levelBaseStandardDual point indication 0 S DCommunicationsNone EthernetRS 485 MODBUS 0 E MApprovalStandard CE cULus approval S UPower supply100 to 240 V AC 10 to 36 V DC 0 1LanguageEnglish German French Italian Spanish E G F I SSpecial featuresNoneUnbranded front panel *0 BConfigurationStandardCustom configuration (customer to complete and supply CM15 custom configuration sheet – INF11/089–EN) Engineered configuration (customer to supply configuration details required)STD CUS ENGCalibration certificate **C1 Printed instruction manualEnglish German Spanish French Italian M5 M1 M3 M4 M2* Not available in conjunction with cULus approval.** When a calibration certificate is ordered it is performed according to the specified configuration type:CUS/ENG – Inputs and outputs calibrated according to the customer supplied configuration details and ranges. STD – Inputs and outputs calibrated according to the instrument factory standard configuration and ranges.16CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—Notes17 CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q—…NotesSalesServiceSoftware18CONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. QCONTROLMASTER CM15 UNIVERSAL PROCESS INDICATOR 1/8 DIN | DS/CM15-EN REV. Q19D S /C M 15-E N R e v . Q 12.2019We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail.ABB does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.We reserve all rights in this document and in the subject matter and illustrations contained therein. Any reproduction, disclosure to third parties or utilization of its contents – in whole or in parts – is forbidden without prior written consent of ABB.© Copyright 2019 ABB.All rights reserved.3KXC401501R1001—ABB LimitedMeasurement & Analytics Howard Road, St. Neots Cambridgeshire, PE19 8EU UKTel: +44 (0)1480 475 321Fax: +44 (0)1480 217 948Mail:**********************.com ABB Inc.Measurement & Analytics 125 E. County Line Road Warminster, PA 18974USATel: +1 215 674 6000Fax: +1 215 674 /recorders。

SX-DS-158, SX-DS-208, SX-DS-1011i, SX-DS-1611iUser Manual© 2018 AMETEK Electronic Systems Protection | Technical Support 1-800-645-9712 | UM-Defender-Rack-Rev-AI. Product OverviewThe SurgeX Defender Series are AC surge suppressors and power filters designed to be installed in a 19-inch/48.26 cm equipment rack. 120V and 240V models are available to match global power requirements.Model Voltage Current Input Plug Output ReceptaclesSX-DS-158 120 V 15A NEMA 5-15P 8, NEMA 5-15RSX-DS-208 120 V 20A NEMA 5-20P 2, NEMA 5-20R6, NEMA 5-15RSX-DS-1011i 240 V 10A IEC C14 11, IEC C13SX-DS-1611i 240 V 16A IEC C20 11, IEC C13II. InstallationThe Defender Series are designed to be installed in a 19-inch/48.26 cm equipment rack and require one unit (1-U) of rack space. Use the four screws provided with the product to secure the rack ears to the rack rails. These screws can be tightened by hand and do not require tools.120V Models (SX-DS-158, SX-DS-208): Connect power to the unit by plugging the attached power cord into a properly wired and grounded supply receptacle.240V Models (SX-DS-1011, SX-DS-1611i): Connect power to the unit by plugging an appropriately rated 3 wire grounding type power cord into a properly wired and grounded supply receptacle. The socket-outlet shall be installed near the equipment and shall be easily accessible.Do not plug the unit into a relocatable power tap.The maximum current rating of each individual receptacle, and of the unit as a whole, must not be exceeded: Model Total Maximum Current Maximum Current Per OutletSX-DS-158 15 A 15 ASX-DS-208 20 A 6 Outlets, 15A2 Outlets, 20ASX-DS-1011i 10 A 10ASX-DS-1611i 16 A 10APlug the equipment cords into the receptacles as needed.III. IndicatorsLocated on the front panel is a green System On LED.All models: When the System On LED is illuminated, there is AC power at the AC mains input to the product, and at each of the product’s outlets.SX-DS-158, SX-DS-208: When the System On LED is not illuminated, one of the following conditions is true: •There is no power at AC mains input, or•The supply receptacle is mis-wired, with the Line and Neutral conductors reversed, or•The supply voltage is too high (> 180V ± 10V), or•The input circuit breaker has tripped.SX-DS-1011i, SX-DS-1611i: When the System On LED is not illuminated, one of the following conditions is true: •There is no power at AC mains input, or•The input circuit breaker has tripped. IV. Specifications。

16 Port 1U Rackmount USB KVM Switch with OSD Product ID: SV1631DUSBUThe SV1631DUSBU 16 Port 1U Rack Mountable USB KVM Switch with OSD lets you control 16 USB computers from a single console (USB keyboard, USB mouse, VGA monitor).Convenient push-button and hot-key controls provide quick, reliable switching between connected computers while manual and auto-scan switching modes and an On Screen Display (OSD) offer additional control options.Designed to ensure maximum space efficiency, the USB KVM switch features a slim 1U design that fits neatly into a server equipment rack/cabinet with the included brackets, and can be cascaded with multiple KVM switches to deliver control of up to 136 computers from this single switch. Rear cable connections help to eliminate cable tangles and minimize workspace disruption.This product is TAA compliant and backed by a 3-year warranty with free lifetime technical support.The SV1631DUSBU only works with specific 2-in-1 VGA and USB cables (sold separately), a listof approved cables are below:6 ft Ultra Thin USB VGA 2-in-1 KVM Cable 6 ft Ultra Thin USB VGA 2-in-1 KVM Cable 10 ft Ultra Thin USB VGA 2-in-1 KVM Cable 15 ft Ultra Thin USB VGA 2-in-1 KVM CableCertifications, Reports and Compatibility Applications•Add single console administration to your Co-location/ISP facilitysaving you time and money•Create a scalable, streamlined access solution in your Datacenter or Server Farm•Perfect for manufacturing line computer control, simplifying access to multiple systems•Great for PC test/burn-in computer control saving the desk space required for multiple monitors, keyboards and mice•Ideal for control of multiple PCs in a QA testing environmentFeatures•OS Independent – No drivers or software required•Auto-scan function automatically selects computer sequentially •Cascade configuration expands system capability•Front panel push-button and Hotkey switching allow easy computer access•Identifies and selects computers by the names assigned using the OSD•USB console connections•OSD security allows each PC to be password protected•Plug-and-play system configuration•Rugged, all-metal 1U chassis for use in harsh environments and space-saving cabinets•Supported Wide Screen Resolutions: 1920x1200, 1920x1080, 1680x1050, 1400x1050, 1440x900, 1360x768•Supported 4 : 3 Resolutions: 1920x1440, 1600x1200, 1280x1024, 1024x768•USB Keyboard and Mouse combo supported on one USB connectionWarranty 3 YearsHardware Audio NoCables Included NoDaisy-Chain YesKVM Ports16Number of Monitors Supported1PC Interface USBPC Video Type VGARack-Mountable YesPerformance Hot-Key Selection YesIP Control NoMaximum Analog Resolutions1920x1440 @60Hz (1920x1200 @60Hz - Wide Screen)Maximum Cascaded Computers136Maximum Number of Users1MTBF158000 hoursOn-Screen Display YesPort Selection Support Push Button, Hotkeys, and OSD (On Screen Display)Wide Screen Supported YesConnector(s)Console Interface(s) 1 - VGA (15 pin, High Density D-Sub) Female2 - USB Type-A (4 pin) USB 2.0 FemaleHost Connectors16 - VGA (15 pin, High Density D-Sub) Female Software OS Compatibility OS independent; No software or drivers required Indicators LED Indicators 1 - Green - Power16 - Green - PC Online16 - Red - PC SelectedPower Center Tip Polarity PositiveInput Current0.6AInput Voltage100 - 240 ACOutput Current 1.5AOutput Voltage12 DCPlug Type MPower Consumption (In Watts)18Power Source AC Adapter Included Environmental Humidity80% RHOperating Temperature5°C to 40°C (41°F to 104°F)Storage Temperature-20°C to 60°C (-4°F to 140°F)Color BlackPhysicalCharacteristicsEnclosure Type SteelProduct Depth7.1 in [180 mm]Product Height 1.8 in [4.5 cm]Product Width21.3 in [54 cm]Weight of Product 6.9 lb [3.1 kg]Package Height10.4 in [26.4 cm]PackagingInformationPackage Length18.4 in [46.8 cm]Package Width 3.5 in [89 mm]Shipping (Package) Weight7.8 lb [3.5 kg]What's in the Box Included in Package 1 - 16 Port USB KVM Switch2 - Mounting Brackets1 - Bag of Screws1 - Pack Rubber Feet1 - Power Adapter1 - User ManualProduct appearance and specifications are subject to change without notice.。

L E 06187A B -01P C -13W 46User interface LEDs table Red LEDflashing slowly and regularly:no network found;waiting for an address to be assigned.Green LEDflashing quickly and regularly:memory module acquisition phase.Green LEDflashing slowly and irregularly:network found.Tabella LED interfaccia utente Led rossolampeggiante lento e regolare:dispositivo senza rete;in attesa dell’assegnazione di un indirizzo.Led verdelampeggiante veloce e regolare:fase di acquisizione modulo memoria.Led verdelampeggiante lento e irregolare:rete trovata.Tableau LEDs interface utilisateur Led rougeclignotement lent et régulier:dispositif sans réseau;en attente de l’attribution d’une adresse.Led vertclignotement rapide et régulier:phase d’acquisition module mémoire.Led vertclignotement lent et irrégulier:réseau trouvé.Tabelle LED Bedienerschnittstelle Rote LedBlinkt langsam und regelmäßig:kein Netzanschluss;Gerät wartet auf Adressenzuordnung.Grüne LedBlinkt schnelle und regelmäßig:erfassungsphase SpeichermodulGrüne LedBlinkt langsam und unregelmäßig:netz gefunden.Tabla LED interfaz de usuario Led rojoparpadeo lento y regular:dispositivo sin red;a la espera de asignación de una dirección.Led verdeparpadeo rápido y regular:fase de adquisición módulo memoria.Led verdeparpadeo lento e irregular:red encontrada.Kullanıcı arayüz LEDİ tablosu Kırmızı ledYavaş ve düzenli yanıp sönen:aygıt ağsız;bir adres tahsis edilmesini beklemede.Yeşil ledHızlı ve düzenli yanıp sönen:bellek modülü alma aşaması.Yeşil ledYavaş ve düzensiz yanıp sönen:ağ bulundu.Tabel LED gebruikersinterface Rode ledknippert langzaam en regelmatig:apparaat zonder netwerk;wacht tot een adres toegekend wordt.Groene ledknippert snel en regelmatig:geheugenmodule verwervingsfase.Groene ledknippert snel en onregelmatig:netwerk gevonden.Tabela diody LED interfejsu użytkownika Czerwona dioda LED miga powoli i regularnie:urządzenie bez sieci;czeka na przyznanie adresu.Zielona dioda LEDmiga szybko i regularnie:faza nabywania modułu pamięci.Zielona dioda LEDmiga powoli i nieregularnie:sieć znaleziona.Tabela LED interface utilizador Led vermelholampejante lento e regular:dispositivo sem rede;aguardando a atribuição de um endereço.Led verdelampejante rápido e regular:fase de adquirição do módulo memória.Led verdelampejante lento e irregular:rede encontrada.Таблица светодиодов интерфейса пользователяКрасный светодиодмедленное и непрерывное мигание:отсутствует сеть устройства;ожидание присвоения адреса.Зеленый светодиодбыстрое и непрерывное мигание:фаза получения модуля памяти.Зеленый светодиодмедленное и прерывистое мигание:сеть найдена.Πίνακας LED διεπαφής χρήστηΚόκκινο Led . Αργός διακοπτόμε-νος κανονικός φωτισμός:σύστημα χωρίς δίκτυο; σε αναμονή της πα-ραχώρησης μιας διεύθυνσης.Πράσινο Led. Ταχύς διακοπτόμε-νος κανονικός φωτισμός:φάση ανάκτησης της βαθμίδας μνήμης.Πράσινο Led Αργός διακοπτόμε-νος και ακανόνιστος φωτισμός:ανάκτηση δικτύου.LED用户界面说明表Led 红色有规律慢闪：设备没有网络；等待分配地址。