OPB856Z中文资料

目录重要安全信息第一部分 --------------------------------------------------------------------------------------------------------------维修注意事项第二部分 --------------------------------------------------------------------------------------------------------------------电源系统第三部分 --------------------------------------------------------------------------------------------------------------------仪表系统第四部分 --------------------------------------------------------------------------------------------------------------自动复位系统第五部分 -----------------------------------------------------------------------------------------------------------------------灯组件第六部分 -----------------------------------------------------------------------------------------------停车制动与动力切断线路第七部分 --------------------------------------------------------------------------------------------------------------倒车警报系统第八部分 -----------------------------------------------------------------------------------------------------刮水器与清洗器系统第九部分 -----------------------------------------------------------------------------------------------------------------电喇叭线路第十部分-----------------------------------------------------------------------------------------------------------------点烟器线路第十一部分 ----------------------------------------------------------------------------------------------ZF 半自动变速操纵系统第十二部分 -----------------------------------------------------------------------------------------------------------------空调电路重要安全信息很多操作、维护、维修等方面的意外事故是由于没有遵守基本的安全规则及安全防范措施引起的。

050805WebSite In our continuing strategy to deliver unparalleled circuit protection solutions,technical expertise and application leadership, we proudly introduce theWICKMANN Group and its products to the Littelfuse portfolio.VDEM INIA INIATURETURE F USEHOLDERS Holder / No. 850SpecificationsS t a n d a r d IEC 60127-6UL 512CSA C22.2. No.39Approvals VDE Report SEMKOUL Recognized CSA SEVMounting12.7mm diameter D-hole or 13mm round hole Admissible torque on plastic hex nut is 1.2Nm T erminalsSolderable only, 4mm x 0.5mm (850)Solderable or 2.8mm quick connect - fits 0.5mm tab (851)Protection Class & CategoryIP 40 (with Cap 855 acc. to IEC 60529)IP 54 (with Cap 856 acc. to IEC 60529)PC2 (IEC 60127-6)MaterialsHolder:Black Duroplastic UL 94V0Cap:Black ThermoplasticUL94VOSealing Ring:Silicon (Cap 856)Metal Parts:Copper alloy, corrosion protected Terminals:Solderable, tinned Electrical Data (23ºC)Rated Voltage:250V Rated Current:10ARated Power :3.2W (VDE/SEMKO)Operating T Operating Temperature 4W (SEV)emperature 4W (SEV)-40ºC to +85ºC (consider de-rating)Climatic T Climatic Testest -40ºC/+85ºC/21 days (IEC 60068-2-1...3)Stock Conditions+10ºC to +60ºCrelative humidity ≤ 75% yearly average,without dew, maximum value for 30 days - 95%Vibration Resistance24 cycles at 15 min. each (IEC 60068-2-6)10 - 60Hz at 0.75mm amplitude 60 - 500Hz at 10g acceleration Contact Resistance ≤ 5m ΩImpulse Voltage4 kV, 50 Hz, 1 min., dry Insulation Resistance > 103 M Ω (500 VDC, 1 min.)Solderability235ºC, 2 sec. (Wave)350ºC, 1 sec. (Soldering Iron)Soldering Heat Resistance 350ºC, 5 sec. (IEC 60068-2-20)Minimum Cross Section Conductor - 1.5mm 2MarkingPart No., 250V, Approvals Unit Weight4.1g (850) / 1.8g (855)4.2g (851) / 1.9g (856)Order InformationP a c k a g i n gBulk (100 pcs.)Order NumbersHolder, IP 40No. 850 0000 100Cap, without Ring, IP 40No. 855 0000 100Holder, IP 54No. 851 0000 100Cap, with Ring, IP 54No. 856 0000 100Panel Mount, Panel Mount, ShocksafeShocksafe 5x20mm FusesWithout silicon ring (IP 40)With silicon ring (IP 54)(from front side only)Holder / No. 851Specifications are subject to change without noticeNote: 1.00 means the number one with two decimal places. 1,000 means the number one thousand.元器件交易网。

1.General descriptionThe PCA8565 is a CMOS 1 real time clock and calendar optimized for low powerconsumption.A programmable clock output,interrupt output and voltage-low detector are also provided. All address and data are transferred serially via a two-line bidirectional I 2C-bus. Maximum bus speed is 400kbit/s. The built-in word address register is incremented automatically after each written or read data byte.AEC-Q100 compliant (PCA8565TS) for automotive applications.2.FeaturesI Provides year, month, day, weekday, hours, minutes and seconds based on a 32.768kHz quartz crystal I Century flagI Clock operating voltage: 1.8V to 5.5VI Extended operating temperature range:−40°C to +125°CI Low backup current; typical 0.65µA at V DD =3.0V and T amb =25°C I 400kHz two-wire I 2C-bus interface (at V DD =1.8V to 5.5V)I Programmable clock output for peripheral devices (32.768kHz,1.024kHz,32Hz and 1Hz)I Alarm and timer functions I Internal power-on resetI I 2C-bus slave address: read A3h and write A2h I Open-drain interrupt pinI One integrated oscillator capacitor3.ApplicationsI Automotive I IndustrialI Other applications that require a wide operating temperature rangePCA8565Real time clock/calendarRev. 02 — 16 June 2009Product data sheet1.The definition of the abbreviations and acronyms used in this data sheet can be found in Section 16.4.Ordering information5.Marking Table 1.Ordering informationType number PackageName Description Version PCA8565TS TSSOP8plastic thin shrink small outline package; 8 leads;body width 3 mmSOT505-1PCA8565BS HVSON10plastic thermal enhanced very thin small outlinepackage; no leads; 10 terminals;body 3×3× 0.85mmSOT650-1Table 2.Marking codesType number Marking codePCA8565TS8565PCA8565BS8565S6.Block diagramFig 1.Block diagram of PCA8565001aah661PCA8565OSCILLATOR 32.768 kHzDIVIDERCLOCK OUTINTERRUPTCLKOUTMONITORPOWER-ON RESETWATCH DOGI 2CINTERFACEOSCISCLSDA OSCOV DD V SSTIMER FUNCTIONTimer_control 0Eh Timer0FhCONTROL Control_100h Control_201h CLKOUT_control0DhTIMESeconds 02h Minutes 03hHours 04h Days 05h ALARM FUNCTIONMinute_alarm 09h Hour_alarm 0AhDay_alarm 0Bh Weekday_alarm0ChWeekdays 06h Months_century 07hYears 08hINT7.Pinning information7.1Pinning7.2Pin description[1]The die paddle (exposed pad) is wired to V SS but should not be electrically connected.Top view. For mechanical details see Figure 28.For mechanical details see Figure 29.Fig 2.Pin configuration of PCA8565TS (TSSOP8)Fig 3.Pin configuration of PCA8565BS (HVSON10)PCA8565TSOSCI V DD OSCO CLKOUT INT SCL V SSSDA001aaj75412346587001aaj753PCA8565BS SDAINT V SSSCL n.c.CLKOUT OSCO V DD OSCI n.c.Transparent top view56473829110terminal 1index areaTable 3.Pin descriptionSymbol Pin DescriptionTSSOP8HVSON10OSCI 11oscillator input OSCO 22oscillator outputn.c.-3, 10do not connect and do not use as feed through;connect to V DD if floating pins are not allowed INT 34interrupt output (open-drain; active LOW)V SS 45[1]ground SDA 56serial data I/O SCL 67serial clock input CLKOUT 78clock output, open-drain V DD89positive supply voltage8.Device protection diagram9.Functional descriptionThe PCA8565contains sixteen 8-bit registers with an auto-incrementing address register,an on-chip 32.768kHz oscillator with one integrated capacitor, a frequency divider which provides the source clock for the Real Time Clock (RTC),a programmable clock output,a timer, an alarm, a voltage-low detector and a 400kHz I 2C-bus interface.All 16registers are designed as addressable 8-bit registers although not all bits are implemented:•The first two registers (memory address 00h and 01h)are used as control and statusregisters•The registers at memory addresses 02h through 08h are used as counters for theclock function (seconds up to years counters)•Address locations 09h through 0Ch contain alarm registers which define theconditions for an alarm•The register at address 0Dh controls the CLKOUT output frequency•At address 0Eh is the timer control register and address 0Fh contains the timer valueThe arrays SECONDS, MINUTES, HOURS, DAYS, WEEKDAYS, MONTHS, YEARS as well as the bit fields MINUTE_ALARM, HOUR_ALARM, DAY_ALARM and WEEKDAY_ALARM are all coded in Binary Coded Decimal (BCD) format.When one of the RTC registers is read the contents of all time counters are frozen. This prevents faulty reading of the clock or calendar during a carry condition (see Section 10.5.3).Fig 4.Device diode protection diagram of PCA8565mce169SDAV SS SCLINTCLKOUTOSCO V DDOSCIPCA85659.1Register overviewTable 4.Register overview and control bits default valuesBit positions labeled as- are not implemented. Bit positions labeled as N should always be written with logic0. Reset values are shown in Table7.Address Register name Bit76543210 Control registers00h Control_1TEST1N STOP N TESTC N N N01h Control_2N N N TI_TP AF TF AIE TIE Time and date registers02h Seconds VL SECONDS (0 to 59)03h Minutes-MINUTES (0 to 59)04h Hours--HOURS (0 to 23)05h Days--DAYS (1 to 31)06h Weekdays-----WEEKDAYS (0 to 6)07h Months_century C--MONTHS (1 to 12)08h Y ears YEARS (0 to 99)Alarm registers09h Minute_alarm AE_M MINUTE_ALARM (0 to 59)0Ah Hour_alarm AE_H-HOUR_ALARM (0 to 23)0Bh Day_alarm AE_D-DAY_ALARM (1 to 31)0Ch Weekday_alarm AE_W----WEEKDAY_ALARM (0 to 6) CLKOUT control register0Dh CLKOUT_control FE-----FDTimer registers0Eh Timer_control TE-----TD0Fh Timer COUNTDOWN_TIMER9.2Control registers9.2.1Register Control_1Table 5.Register Control_1 (address00h) bits descriptionBit Symbol Value Description7TEST10[1]normal mode1EXT_CLK test mode6N0[2]default value5STOP0[1]RTC source clock runs1all RTC divider chainflip-flops are asynchronously set tologic0;the RTC clock is stopped(CLKOUT at32.768kHz is stillavailable)4N0[2]default value3TESTC0power-on reset override facility is disabled;set to logic0 for normal operation1[1]power-on reset override may be enabled2to0N000[2]default value[1]Default value.[2]Bits labeled as N should always be written with logic 0.9.2.2Register Control_2Table 6.Register Control_2 (address01h) bits descriptionBit Symbol Value Description7to5N000[1]default value4TI_TP0[2]INT is active when TF is active (subject to the status ofTIE)1INT pulses active according to T able26 (subject to thestatus of TIE);Remark:note that if AF and AIE are active then INT willbe permanently active3AF0[2]alarm flag inactive1alarm flag active2TF0[2]timer flag inactive1timer flag active1AIE0[2]alarm interrupt disabled1alarm interrupt enabled0TIE0[2]timer interrupt disabled1timer interrupt enabled[1]Bits labeled as N should always be written with logic 0.[2]Default value.9.3ResetThe PCA8565 includes an internal reset circuit which is active whenever the oscillator is stopped.In the reset state the I2C-bus logic is initialized including the address pointer.All other registers are set according to Table7.Table 7.Register reset values[1]Address Register name Bit76543210 00h Control_10000100001h Control_2x x00000002h Seconds1x x x x x x x03h Minutes1x x x x x x x04h Hours x x x x x x x x05h Days x x x x x x x x06h Weekdays x x x x x x x x07h Months_century x x x x x x x x08h Y ears x x x x x x x x09h Minute_alarm1x x x x x x x0Ah Hour_alarm1x x x x x x x0Bh Day_alarm1x x x x x x x0Ch Weekday_alarm1x x x x x x x0Dh CLKOUT_control1x x x x x000Eh Timer_control0x x x x x110Fh Timer x x x x x x x x[1]Registers labeled ‘x’ are undefined at power-on and unchanged by subsequent resets.9.4Time and date registersThe majority of the registers are coded in the BCD format to simplify application use.Table 8.Register Seconds (address02h) bits descriptionBit Symbol Value Place value Description7VL0-clock integrity is guaranteed1[1]-integrity of the clock information is not guaranteed 6to4SECONDS0to5[2]ten’s place actual seconds coded in BCD format3 to 00 to 9[2]unit place[1]Start-up value.[2]Values shown in decimal.[1]Values shown in decimal.[1]Values shown in decimal.[1]The PCA8565 compensates for leap years by adding a 29th day to February if the year counter contains a value which is exactly divisible by 4, including the year 00.[2]Values shown in decimal.[1]Values shown in decimal.Table 9.Seconds coded in BCD formatSeconds value in decimal Upper-digit (ten’s place)Digit (unit place)Bit 6Bit 5Bit 4Bit 3Bit 2Bit 1Bit 0000000000010000001020000010:090001001100010000:581011000591111Table 10.Register Minutes (address 03h) bits descriptionBit Symbol Value Place value Description 7---unused6to 4MINUTES0to 5[1]ten’s place actual minutes coded in BCD format3 to 00 to 9[1]unit placeTable 11.Register Hours (address 04h) bits descriptionBit SymbolValue Place value Description 7 to 6---unused5to 4HOURS 0to 2[1]ten’s place actual hours coded in BCD format3 to 00 to 9[1]unit placeTable 12.Register Days (address 05h) bits descriptionBit SymbolValue Place value Description 7 to 6---unused5to 4DAYS [1]0to 3[2]ten’s place actual day coded in BCD format3 to 00 to 9[2]unit placeTable 13.Register Weekdays (address 06h) bits descriptionBit SymbolValue Description 7 to 3--unused2to 0WEEKDAYS0to 6[1]actual weekday values, see Table 14[1]Definition may be re-assigned by the user.[1]This bit may be re-assigned by the user.[2]This bit is toggled when the years register overflows from 99 to 00.[3]Values shown in decimal.Table 14.Weekday assignmentsDay [1]Bit 210Sunday 000Monday 001T uesday010Wednesday 011Thursday 100Friday 101Saturday11Table 15.Register Months_century (address 07h) bits descriptionBit SymbolValue Place value Description 7C [1]0[2]-indicates the century is x 1-indicates the century is x +16 to 5---unused4MONTHS0to 1[3]ten’s place actual month coded in BCD format, see Table 163 to 00 to 9[3]unit placeTable 16.Month assignments coded in BCD formatMonthUpper-digit (ten’s place)Digit (unit place)Bit 4Bit 3Bit 2Bit 1Bit 0January 00001February 00010March 00011April 00100May 00101June 00110July 00111August 01000September 01001October 10000November 10001December11分销商库存信息:NXPPCA8565TS/1,118PCA8565BS/1,118。

W25Q64BV出版日期：2010年7月8日- 1 - 版本E64M位与串行闪存双路和四路SPIW25Q64BV- 2 -目录1，一般DESCRIPTION (5)2。

FEATURES (5)3引脚配置SOIC208-MIL.......................................... .. (6)4，焊垫配置WSON8X6-MM.......................................... . (6)5，焊垫配置PDIP300-MIL.......................................... . (7)6引脚说明SOIC208密耳，PDIP300密耳和WSON8X6-MM................................ 7......7引脚配置SOIC300mil的.......................................... .. (8)8引脚SOIC封装说明300-MIL (8)8.1包装Types (9)8.2片选(/CS) (9)8.3串行数据输入，输出和IO（DI，DO和IO0，IO1，IO2，IO3）............................. 9.......8.4写保护(/WP) (9)8.5控股(/HOLD) (9)8.6串行时钟(CLK) (9)9座DIAGRAM (10)10功能DESCRIPTION (11)10.1 SPI OPERATIONS (11)10.1.1标准SPI Instructions (11)10.1.2双SPI Instructions (11)10.1.3四路SPI Instructions (11)10.1.4保持功能 (11)10.2写保护 (12)10.2.1写保护Features (12)11，控制和状态寄存器............................................ .. (13)11.1状态REGISTER (13)11.1.1 BUSY (13)11.1.2写使能锁存(WEL) (13)11.1.3块保护位（BP2，BP1，BP0）..................................... .. (13)11.1.4顶/底块保护（TB）....................................... .................................................. ..1311.1.5部门/块保护(SEC) (13)11.1.6状态寄存器保护（SRP，SRP0）....................................... . (14)11.1.7四路启用(QE) (14)11.1.8状态寄存器内存保护........................................... .. (16)11.2 INSTRUCTIONS (17)11.2.1制造商和设备标识........................................... .. (17)11.2.2指令集表1 (18)W25Q64BV11.2.3指令表2（阅读说明书）....................................... (19)出版日期：2010年7月8日- 3 - 修订版E11.2.4写使能(06h) (20)11.2.5写禁止(04h) (20)11.2.6读状态寄存器1（05H）和读状态寄存器2（35H）.............................. (21)11.2.7写状态寄存器（01H）......................................... .................................................. .. (22)11.2.8读取数据(03h) (23)11.2.9快速阅读(0Bh) (24)11.2.10快速读双输出（3BH）........................................ .................................................. 0.25 11.2.11快速读四路输出（6BH）........................................ .. (26)11.2.12快速读双I / O (BBh) (27)11.2.13快速读取四I/ O (EBh) (29)11.2.14八进制字读取四I/ O（E3H）..................................... (31)11.2.15页编程(02h) (33)11.2.16四路输入页编程（32H）........................................ . (34)11.2.17扇区擦除（20H） (35)11.2.1832KB的块擦除（52H） (36)11.2.1964KB的块擦除(D8h) (37)20年2月11日芯片擦除（C7H/ 60h) (38)21年2月11日擦除挂起(75h) (39)22年2月11日擦除恢复(7Ah) (40)23年11月2日掉电(B9h) (41)24年2月11日高性能模式（A3H）......................................... (42)25年2月11日发布掉电或高性能模式/设备ID（ABH） (42)26年2月11日读制造商/设备ID（90H）....................................... . (44)27年2月11日阅读唯一的ID号（4BH）........................................ . (45)28年2月11日读JEDEC的ID (9Fh) (46)29年2月11日连续读取模式复位（FFH或FFFFH）...................................... .. (47)12，电气特性.............................................. (48)12.1绝对最大Ratings (48)12.2操作范围 (48)12.3上电时序和写抑制阈值......................................... (49)12.4直流电气Characteristics (50)12.5 AC测量条件.............................................. .. (51)12.6 AC电气Characteristics (52)12.7 AC电气特性（续）......................................... . (53)12.8串行输出Timing (54)12.9输入Timing (54)12.10持有Timing (54)13包装SPECIFICATION (55)W25Q64BV13.18引脚SOIC208密耳（包装代号SS）..................................... .. (55)- 4 -13.28引脚PDIP300密耳（封装代码DA）..................................... (56)13.38触点WSON8x6毫米（封装代码ZE）....................................... (57)13.416引脚SOIC300密耳（封装代码SF）..................................... . (58)14订货INFORMA TION (59)14.1有效的部件号和顶端标记.......................................... (60)15版本HISTORY (61)W25Q64BV出版日期：2010年7月8日- 5 - 修订版E1概述该W25Q64BV（64M位）串行Flash存储器提供了有限的系统存储解决方案空间，引脚和电源。

500mA High PSRR, Low Dropout Voltage Linear RegulatorREV1.0-Revised DEC 2007BL8565DESCRIPTIONBL8565 series is a group of positive voltage output, low noise,low power consumption, low dropout voltage regulator.BL8565 can provide output value in the range of 1.5V~4.5V every 0.1V step. It also can be customized on command.BL8565 includes high accuracy voltage reference, error amplifier, current limit circuit and output driver module with discharge capability.BL8565 has excellent load and line transient response and good temperature characteristics, which can assure the stability of chip and power system. And it uses trimming technique to guarantee output voltage accuracy within ±2%.BL8565 is available in SOT-89-3 packages which is lead free.FEATURES• Low Power Consumption: 20uA （Typ.） • Low output noise (47uVRMS)• Low dropout Voltage: 0.16V@300mA(Typ.)• High Ripple Rejection: 73dB@100Hz(Typ.)• Low Temperature Coefficient: ±100ppm/°C• Excellent Line regulation: 0.05%/V• Build-in chip enable and discharge circuit • Output Voltage Range: 1.5V~4.5V(customized on command every 0.1V step)• Highly Accurate: ±2% • Output Current LimitAPPLICATIONS• Power Management for Computer,MotherBoard, Graphic Card• LCD Monitor and LCD TV • DVD Decode Board• Reference Voltage Source• Regulation after Switching PowerTYPICAL APPLICATIONNOTE: Input capacitor (Cin=1uF) and Output capacitor (Cout=3.3uF/4.7uF) arerecommended in all application circuit.ELECTRICAL CHARACTERISTICSBL8565BL8565 □1□2□3□4□5CodeDescription□1 Temperature&Rohs:C:-40~85°C ,Pb Free Rohs Std. □2 Package type: C3A:SOT-89-3(A) C3B:SOT-89-3(B) C3C:SOT-89-3(C) □3 Packing type:TR:Tape&Reel (Standard) □4 Output voltage: e.g. 15=1.5V 18=1.8V 45=4.5V □5 Voltage accuracy: Blank(default)=±2%MARKING DESCRIPTONAD : Product Code XX: Output Voltage Vout Code Vout Code Vout Code 2.5V 25 3.8V 38 2.6V 26 3.9V 39 2.7V 27 4.0V 40 1.5V 15 2.8V 28 4.1V 41 1.6V 16 2.9V 29 4.2V 42 1.7V 17 3.0V 30 4.3V 43 1.8V 18 3.1V 31 4.4V 44 1.9V 19 3.2V 32 4.5V 45 2.0V 20 3.3V 33 2.1V 21 3.4V 34 2.2V 22 3.5V 35 2.3V 23 3.6V 36 2.4V 24 3.7V 37YY:LOT NO.Z: The Year of manufacturing,”7” stands for year 2007,”8” stands for year 2008,and “0” stands for year 2010.Z: The week of manufacturing. ”A” stands for week 1,”Z” stands for week 26,”A ” stands for week 27,” Z ” stands for week 52.Product Classification BL8565CC3ATR □□□MarkingADXXA YYBZZ AD:Product CodeXX: Output VoltageA:Package YY:Lot No.B:FabCode ZZ:Data CodeProduct Classification BL8565CC3BTR □□□MarkingADXXBYYBZZ AD:Product Code XX: Output VoltageB:PackageYY:Lot No. B:FabCodeZZ:Data CodeProduct Classification BL8565CC3CTR □□□MarkingADXXC YYBZZ AD:Product CodeXX: Output VoltageC:Package YY:Lot No.B:FabCodeZZ:Data CodeVss Ground PinVin Supply Voltage Input VoutOutput VoltageABSOLUTE MAXIMUM RATINGParameter ValueMax Input Voltage 8VOperating Junction Temperature(Tj) 125°COutput Current 500mAAmbient Temperature(Ta) -40°C –85°CPowerSOT-89-3 500mWDissipationStorage Temperature(Ts) -40°C -150°CLead Temperature & Time 260°C,10SNote:Exceed these limits to damage to the device.Exposure to absolute maximum rating conditions may affect device reliability.RECOMMENDED WORK CONDITIONSItem Min Recommended Max. Unit Input Voltage Range 6 V Ambient Temperature -40 85 °CELECTRICAL CHARACTERISTICS（Test Conditions: Cin=1uF,Cout=3.3uF,TA=25°C, unless otherwise specified. ）NOTE:Vdrop=Vin1-(Vout2*0.98) Vout2 is the output voltage when Vin=Vout1+1.0V and Iout=500mA.Vin1 is the input voltage at which the output voltage becomes 98% of Vout1 after gradually decreasing the input voltage. BLOCK DIAGRAMExplanationBL8565 series is a group of positive voltage output, low noise, low power consumption, low dropout voltage regulator.BL8565 can provide output value in the range of 1.5V~4.5V every 0.1V step. It also can be customized on command.BL8565 includes high accuracy voltage reference, error amplifier, current limit circuit and output driver module.BL8565 has excellent load and line transient response and good temperature characteristics, which can assure the stability of chip and power system. And it uses trimming technique to guarantee output voltage accuracy within±2%.2) Output Voltage vs. Input Voltage 1) Output Voltage vs. Output Current (with outputshort protection)3) Dropout Voltage vs. Output Current 4) Ripple rejection vs. FrequencyCin=Cout=1uF Iout=25mA vout=3.3V6) Load transient responseCin=Cout=1uF Vin=4.5v Vout=3.3V4v5vvinvoutvinvout 4v5v1mA Output Current Output Voltage1mA50mA50mAOutput CurrentOutput VoltagePACKAGE LINEPackage SOT-89-3 Devices per reel 1000Pcs Unit mm Package dimension：。

1T856/857 General InformationThis section provides a brief description of the T856 transmitter and T857 exciter, along with detailed specifications and a list of types available.The following topics are covered in this section.Section Title Page 1.1Introduction 1.71.21.2.11.2.21.2.31.2.41.2.4.11.2.4.21.2.4.31.2.51.2.61.2.6.11.2.6.21.2.6.3SpecificationsIntroductionGeneralRF SectionAudio ProcessorInputsModulation CharacteristicsCTCSSMicrocontrollerTest StandardsEuropean Telecommunication StandardDTI CEPT Recommendation T/R-24-01Telecommunications Industry Association1.81.81.81.91.101.101.111.111.111.121.121.121.121.3Product Codes 1.13 1.4T856 Standard Product Range 1.14 1.5T857 Standard Product Range 1.15Figure Title Page 1.1T856 Main Circuit Block Identification 1.4 1.2T856 Front Panel Controls 1.4 1.3T857 Main Circuit Block Identification 1.6 1.4T857 Front Panel Controls 1.6replace A4 pages C1.3/C1.4 with A3 pages C1.3/C1.4replace A4 pages C1.3/C1.4 with A3 pages C1.3/C1.4replace A4 pages C1.5/C1.6 with A3 pages C1.5/C1.6replace A4 pages C1.5/C1.6 with A3 pages C1.5/C1.61.1IntroductionThe T856 is a synthesised, microprocessor controlled FM base station transmitter designed for single or multichannel operation in the 400 to 520MHz frequency range1 with a standard power output of 25W. The RF section of the transmitter comprises a fre-quency synthesiser which provides 100mW of frequency modulated RF drive to a two stage, wide band output driver followed by a 25W power amplifier. A thermal shut-down feature is provided in the T856 in case operating temperatures exceed acceptable levels.The T857 is a synthesised, microprocessor controlled FM base station exciter designed for single or multichannel operation in the 400 to 520MHz frequency range1. With a standard power output of only 1W, the exciter is designed for use with the T858 50W or T859 100W power amplifiers. The RF section of the exciter comprises a frequency syn-thesiser which provides 100mW of frequency modulated RF drive to a two stage, wide band output amplifier.A wide selection of audio characteristics may be obtained from the audio processor. Optional circuit blocks are an audio compressor and a pre-emphasis stage. They can be bypassed or linked to one or both audio inputs, and then back into the remaining audio circuitry in almost any combination. All audio processor options are link selectable. The synthesiser frequency is programmed via the serial communications port. Eight channel select lines are accessible via an optional D-range connector (D-range 2 -T800-03-0000) at the rear of the set.All components except those of the VCO are mounted on a single PCB. This is secured to a die-cast chassis which is divided into compartments to individually shield each sec-tion of circuitry. Access to both sides of the main circuit board is obtained by removing each of the chassis lids. There is provision within the chassis to mount small option PCBs.The front panel controls include line sensitivity, microphone socket and carrier switch. This switch turns on the carrier (unmodulated) as an aid to servicing.The T856 and T857 are both 60mm wide and each occupies a single space in a Tait rack frame, which has the ability to accommodate up to seven standard modules.1.Although capable of operating over the 400-520MHz frequency range, the T856 andT857 have an 8MHz switching range (see Section 1.2.3 and Section 3.1).1.2Specifications1.2.1IntroductionThe performance figures given are minimum figures, unless otherwise indicated, for equipment tuned with the maximum switching range and operating at standard room temperature (+22°C to +28°C) and standard test voltage (13.8V DC).Where applicable, the test methods used to obtain the following performance figures are those described in the EIA and ETS specifications. However, there are several parameters for which performance according to the CEPT specification is given. Refer to Section 1.2.6 for details of test standards.Details of test methods and the conditions which apply for Type Approval testing in all countries can be obtained from Tait Electronics Ltd.The terms "wide bandwidth", "mid bandwidth" and "narrow bandwidth" used in this and following sections are defined in the following table.1.2.2GeneralNumber Of Channels ..128 (standard)1Supply Voltage:Operating Voltage ..10.8 to 16V DC Standard Test Voltage ..13.8V DCPolarity..negative earth only Polarity Protection..crowbar diode Line Keying Supply (if required) ..-50V DCSupply Current:Transmit- T856.. 5.5A (typical)- T857..750mAStandby - T856..165mA (typical)- T857..150mA (typical)Operating Temperature Range..-20°C to +60°CChannel SpacingModulation 100% DeviationReceiver IF Bandwidth Wide Bandwidth 25kHz ±5.0kHz 15.0kHz Mid Bandwidth 20kHz ±4.0kHz 12.0kHz Narrow Bandwidth12.5kHz±2.5kHz7.5kHz1.Additional channels may be factory programmed. Contact your nearest Tait Dealer or Customer Service Organisation.Dimensions:Height ..183mm Width ..60mmLength ..322mmWeight .. 2.1kgTime-Out Timer (optional) ..0 to 5 minutes1 adjustable in 10 sec-ond stepsTail Timer ..0 to 5 seconds adjustable in 100ms2stepsTransmit Key Time..<30msTransmit Lockout Timer..0 to 1 minute adjustable in 10 secondsteps1.2.3RF SectionFrequency Range ..400-520MHz (refer to Section 1.4 andSection 1.5)Modulation Type ..FMFrequency Increment .. 5 or 6.25kHzSwitching Range ..8MHz (i.e. ±4MHz from the centrefrequency)Load Impedance ..50 ohmsFrequency Stability..±1ppm, -20°C to +60°C(see also Section 1.4 and Section 1.5)Adjacent Channel Power (full deviation):Wide Bandwidth (WB)..-75dBc(±25kHz/15kHz B/W)Mid Bandwidth (MB)..-70dBc(±20kHz/12kHz B/W)Narrow Bandwidth (NB)..-65dBc(±12.5kHz/7.5kHz B/W)Transmitter plies with ETS 300 1131.Adjustable from 0 to 10 minutes in PGM800Win version2.12 and later.2.Adjustable in 20ms steps in PGM800Win version 2.12 and later.Transmitter Side Band Noise:(no modulation, 15kHz bandwidth)At ±25kHz ..-95dBcAt ±1MHz ..-105dBcIntermodulation ..-40dBc with interfering signal of-30dBc..-70dBc with 25dB isolation& interfering signal of -30dBc(PA with output isolator)T856 Mismatch Capability:Ruggedness ..refer to your nearest Tait Dealer orCustomer Service Organisation Stability ..3:1 VSWR (all phase angles) Radiated Spurious Emissions:Transmit ..-36dBm to 1GHz-30dBm 1GHz to 4GHz Standby ..-57dBm to 1GHz-47dBm 1GHz to 4GHzConducted Spurious Emissions: (T856 Only)Transmit ..-36dBm to 1GHz-30dBm 1GHz to 4GHz Standby ..-57dBm to 1GHz-47dBm 1GHz to 4GHzPower Output:T856- Rated Power..25W (see Duty Cycle)- Range Of Adjustment..5-25WT857..1W ±300mWDuty Cycle (T856 Only)..100% @ 25W at +25°C..25% @ 25W at +60°C..100% @ 10W at +40°C1.2.4Audio Processor1.2.4.1InputsInputs Available ..line, microphone and CTCSSLine Input:Impedance ..600 ohms (balanced)Sensitivity (60% modulation @ 1kHz)-With Compressor ..-50dBmWithout Compressor ..-30dBmMicrophone Input:Impedance ..600 ohmsSensitivity (60% modulation @ 1kHz)-With Compressor ..-70dBmWithout Compressor ..-50dBm1.2.4.2Modulation CharacteristicsFrequency Response ..flat or pre-emphasised (optional) (below limiting)Line And Microphone Inputs:Pre-emphasised Response-Bandwidth ..300Hz to 3kHz (WB & MB)..300Hz to 2.55kHz (NB)Below Limiting ..within +1, -3dB of a 6dB/octavepre-emphasis characteristic Flat Response ..within +1, -2dB of output at 1kHz Above Limiting Response ..within +1, -2dB of a flat response(ref. 1kHz)max.Distortion ..2% Hum And Noise:Wide Bandwidth ..-55dB (300Hz to 3kHz [EIA]) typical Mid Bandwidth..-54dB (CEPT)Narrow Bandwidth..-50dB (CEPT)Compressor (optional):Attack Time ..10msDecay Time ..800msRange ..50dB1.2.4.3CTCSSStandard Tones..all 37 EIA group A, B and C tonesplus 13 commonly used tonesFrequency Error..0.08% max.(from EIA tones)Generated Tone Distortion.. 1.2% max.Generated Tone Flatness..flat across 67 to 250.3Hz to within 1dB Modulation Level..adjustableModulated Distortion..<5%1.2.5MicrocontrollerAuxiliary Ports:Open Drain Type..capable of sinking 2.25mA via 2k2ΩV ds max (5V)1.2.6Test StandardsWhere applicable, this equipment is tested in accordance with the following standards.1.2.6.1European Telecommunication StandardETS 300 086 January 1991Radio equipment and systems; land mobile service; technical characteristics and test conditions for radio equipment with an internal or external RF connector intended pri-marily for analogue speech.ETS 300 113 March 1996Radio equipment and systems; land mobile service; technical characteristics and test conditions for radio equipment intended for the transmission of data (and speech) and having an antenna connector.ETS 300 219 October 1993Radio equipment and systems; land mobile service; technical characteristics and test conditions for radio equipment transmitting signals to initiate a specific response in the receiver.ETS 300 279 February 1996Radio equipment and systems; electromagnetic compatibility (EMC) standard for pri-vate land mobile radio (PMR) and ancillary equipment (speech and/or non-speech). 1.2.6.2DTI CEPT Recommendation T/R-24-01Annex I: 1988Technical characteristics and test conditions for radio equipment in the land mobile service intended primarily for analogue speech.Annex II: 1988Technical characteristics of radio equipment in the land mobile service with regard to quality and stability of transmission.1.2.6.3Telecommunications Industry AssociationANSI/TIA/EIA-603-1992Land mobile FM or PM communications equipment measurement and performance standards.1.3Product CodesThe three groups of digits in the T850 Series II product code provide information about the model, type and options fitted, according to the conventions described below.The following explanation of T850 Series II product codes is not intended to suggest that any combination of features is necessarily available in any one product. Consult your nearest Tait Dealer or Customer Service Organisation for more information regarding the availability of specific models, types and options.ModelThe Model group indicates the basic function of the product, as follows:T85X-XX-XXXX T855receiverT85625W transmitterT857exciterT85850W power amplifierT859100W power amplifierTypeThe Type group uses two digits to indicate the basic RF configuration of the product.The first digit in the Type group designates the frequency range:T85X-X X-XXXX’1’ for 400-440MHz’2’ for 440-480MHz’3’ for 480-520MHzThe second digit in the Type group indicates the channel spacing:T85X-X X-XXXX’0’ for wide bandwidth (25kHz)’3’ for mid bandwidth (20kHz)’5’ for narrow bandwidth (12.5kHz)’6’ for United States market onlyOptionsT85X-XX-XXXX The Options group uses four digits and/or letters to indicateany options that may be fitted to the product. This includesstandard options and special options for specific customers.’0000’ indicates a standard Tait product with no options fitted.The large number of options precludes listing them here.1.4T856 Standard Product RangeThe following table lists the range of standard T856 types (i.e. no options fitted) availa-ble at the time this manual was published. Consult your nearest Tait Dealer or Cus-tomer Service Organisation for more information.Caution:T856-1X-XXXX Product TypesThe 406 to 406.1MHz frequency range is reserved worldwide for use byDistress Beacons. Do not program transmitters to operate in this fre-quency range.You can identify the transmitter type by checking the product code printed on a label on the rear of the chassis (Figure 1.1 in Part A shows typical labels). You can further verify the transmitter type by checking the placement of an SMD resistor in the table that is screen printed onto the PCB (refer to Section 6.1 for more details). Frequency Range (MHz)400-440Deviation (kHz)2.5 2.545TCXO ±1ppm -20°C to +60°C ••••Transmitter Type: T856-16-0000aa.United States market only.15-000013-000010-0000Frequency Range (MHz)440-480Deviation (kHz)2.5 2.545TCXO ±1ppm -20°C to +60°C ••••Transmitter Type: T856-26-0000a 25-000023-000020-0000Frequency Range (MHz)480-520Deviation2.5 2.55TXCO ±1ppm -20° to +60°C •••Transmitter Type: T856-36-0000a 35-000030-00001.5T857 Standard Product RangeThe following table lists the range of standard T857 types (i.e. no options fitted and cyclic keying disabled) available at the time this manual was published. Consult your nearest Tait Dealer or Customer Service Organisation for more information.Caution:T857-1X-XXXX Product TypesThe 406 to 406.1MHz frequency range is reserved worldwide for use byDistress Beacons. Do not program exciters to operate in this frequencyrange.You can identify the exciter type by checking the product code printed on a label on the rear of the chassis (Figure 1.1 in Part A shows typical labels). You can further verify the exciter type by checking the placement of an SMD resistor in the table that is screen printed onto the PCB (refer to Section 6.1 for more details). Frequency Range (MHz)400-440Deviation (kHz) 2.5 2.545TCXO ±1ppm -20°C to +60°C ••••Exciter Type: T857-16-0000a a.United States market only.15-000013-000010-0000Frequency Range (MHz) 440-480Deviation (kHz) 2.5 2.545TCXO ±1ppm -20°C to +60°C ••••Exciter Type: T857-26-0000a 25-000023-000020-0000Frequency Range (MHz)480-520Deviation 2.5 2.55TXCO ±1ppm -20° to +60°C •••Exciter Type: T857-36-0000a 35-000030-0000。

TB85/TB85-BTC设置手册FCC条款依照FCC条款第15部分的规定，本装置已经通过测试并且符合Class B级数字装置的限制。

此条款限制了在安装过程中可能造成的有害射频干扰并提供了合理的防范措施。

本装置在使用时会产生无线射频辐射，如果没有依照本手册的指示安装和使用，可能会与无线通讯装置产生干扰。

然而，并不保证在特定的安装下不会发生任何干扰。

如果关闭和重新开启本设备后，仍确定本装置造成接收广播或电视的干扰，用户可以使用以下列表中的一种或多种方法来减少干扰：●重新安装或调整接收天线。

●增加本设备与接收设备之间的距离。

●连接设备连接到不同的插座以便于两个设备使用不同的回路。

●咨询经销商或富有经验的无线电工程师，以获得更多资讯。

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TB85/TB85-BTC设置手册防静电操作规则静电可能严重损坏您的设备，在处理主板以及其它的系统设备的时候要特别注意，避免和主板上的系统组件的不必要接触，保证在抗静电的环境下工作，避免静电放电可能对主板造成损坏，当在您的机箱中插入或者移除设备时，请保证电源处于断开状态，厂商对于不遵照本操作规则或者不遵守安全规范而对主板造成的损坏不负责。

ADT-856 六轴运动控制卡用户手册众为兴数控技术有限公司第 1 页 共 17 页版权声明本用户手册的所有部分其著作财产权归属众为兴数控技术有限公司以下简称众为兴所有末经众为兴许可任何人不可任意地仿制拷贝誊抄或转译本用户手册没有任何形式的担保立场表达或其他暗示若有任何因本用户手册或其所提到之产品的所有信息所引起的直接或间接的资料流出利益损失或事业终止众为兴及其所属员工恕不担负任何责任除此之外本用户手册提到的产品规格及资料仅供参考内容有可能会更新恕不另行通知商标声明用户手册中所涉及到的产品名称仅作识别之用而这些名称可能是属于其它不同的商标或版权在此声明如下INTELPENTIUM 是INTEL公司的商标WINDOWSMS DOS 是 MICROSOFT公司产品标识 ADT 856是众为兴公司的商标其它末提到的标识均属各注册公司所拥有版权所有不得翻印众为兴数控技术有限公司一 概要第 2 页 共 17 页产品简介ADT856卡是基于PCI 总线的高性能六轴伺服/步进控制卡支持一个系统中使用多达16块控制卡可控制96路伺服/步进电机支持即插即用位置可变环形可在运动中随时改变速度可使用连续插补等先进功能 脉冲输出方式可用单脉冲脉冲+方向或双脉冲脉冲+脉冲方式最大脉冲频率4MHz 采用先进技术使输出频率在很高的时候也能使频率误差小于0.1%位置管理采用两个加/减计数器一个用于内部管理驱动脉冲输出的逻辑位置计数器一个用于接收外部的输入输入信号可以是A/B 相输入的编码器或光栅尺也可是上/下脉冲的输入信号作为实际位置计数器计数器位数高达32位最大范围–2,147,483,648~+2,147,483,647外部输入也可用于手轮输入作为普通的计数 提供伺服接口信号如编码器信号到位信号INPOS报警信号ALARM 伺服开启SERVO ON 等 多种控制方式如定量运动连续运动回零运动多轴插补圆弧插补等插补一般用定速运动也可用直线/S 曲线加减速S曲线加减速不能用于圆弧插补插补带有连续插补功能即在插补过程中输入下一点的插补数据以保证脉冲的连续使插补达到更快更好的性能最大插补速度可达2Mhz速度控制可用定速和直线/S 曲线加减速可做非对称直线加减速可用自动/手动减速在定量驱动时可防止速度曲线产生三角波形每轴有2个32位比较寄存器用于产生中断或作为软件限位 每轴有8个输入信号包括2个正负限位信号3个停止信号1个伺服到位信号1个伺服报警信号和1个通用输入信号除限位信号外其余信号可通过设置成无效来作为通用输入信号3个停第 3 页 共 17 页 止信号可作为原点信号减速信号编码器Z 相搜寻使用所有数字输入信号均有积分型的滤波器可选8种滤波时间常数以防止干扰 中断可设置成在各种情况下产生如加/减速驱动的定速开始时定速完毕时驱动完毕时位置计数器和比较器之间的大小关系有变化时等等此外连续插补发生下一个数据请求时的中断提供DOS WINDOWS95/98/NT/2000开发库可用VC++VB BC++等进行软件开发主要性能32位PCI 总线即插即用6轴伺服/步进电机控制每轴可独立控制互不影响 脉冲输出的频率误差小于0.1%最大脉冲输出频率为4MHz脉冲输出可用单脉冲脉冲+方向或双脉冲脉冲+脉冲方式6轴均有位置反馈输入32位计数最大计数范围-2,147,483,648~+2,147,483,647直线或S 曲线进行加/减速非对称直线加/减速运动2-6轴直线插补CW CCW 圆弧插补可用连续插补功能最大驱动速度2MHz每轴都有2 个32位比较寄存器用于逻辑位置计数器或者实际位置计数器的位置大小比较可用于软件限位或产生中断可接收伺服马达驱动器的各种信号如2相编码器信号到位信号报警信号等每轴有3个STOP 信号可用于原点搜寻编码器Z 相搜第 4 页 共 17 页寻运动中可实时改变速度运动中可以实时读出逻辑位置实际位置驱动速度加速度加/减速状态加速中定速中减速中可编程中断可以由多种原因产生中断每轴有8入数字I/O 除2限位信号外均可作为通用I/O 使用数字输出共有32个可用于伺服开启伺服报警复位等信号每一个输入信号的输入端都装备积分型的滤波器可以设定哪一个输入信号的滤波器功能变为有效或无效滤波器的时间常数从8个种类里可以选择1个支持在一个系统中使用多达16个控制卡支持DOS WINDOWS95/98/NT/2000等操作系统应用范围 1 多轴雕铣系统 2 机器人系统 3 空间座标测量系统 4 基于PC 的数控系统二 硬件安装第 5 页 共 17 页一检查配件 1 ADT-856 用户手册本手册 2 ADT-856 四轴PCI 总线高性能运动控制卡 3 ADT-856 用户光盘 4 ADT-9137 37芯信号接线板2块 5 ADT-D37 37芯屏蔽连接线2条 6 ADT-DB37 37芯扁平线1条二 安装 1 关闭电脑电源注ATX 电源需总电源关闭 2 打开电脑机箱后盖 3 选择一条未占用的PCI 插槽,插入ADT-856 4 检查ADT-856的金手指是否完整插入PCI 插槽,拧整螺丝 5 根据用户情况决定是否安装J3J4接口线三 电气连接一块Adt850卡有四个输入/输出接口其中J1J2为37针插座J4为25针插座J3为40针排座J1为X Y Z 轴的脉冲输出开关量输入/输出的信号接线 J2为W U V 轴的脉冲输出开关量输入/输出的信号接线 J3为一些开关量输入和编码器输入信号的接线J4为开关量输出OUT12-OUT31信号的接线 J1J2所有信号均为光耦隔离J3的信号为不隔离的信号必须另加一块隔离电路板使用J4的信号为不隔离的开关量输出信号不加隔离板时输出电压建议采用+12V 电源信号定义如下第 6 页 共 17 页J1 线号说明线号 符号 说明 1 XPU+ X 脉冲信号+第 7 页 共 17 页 2 XPU- X 脉冲信号-3 XDR+ X 方向信号+4 XDR- X 方向信号-5 YPU+ Y 脉冲信号+6 YPU- Y 脉冲信号-7 YDR+ Y 方向信号+8 YDR- Y 方向信号-9 ZPU+ Z 脉冲信号+10 ZPU- Z 脉冲信号-11 ZDR+ Z 方向信号+12 ZDR- Z 方向信号-13 EXT_VCC 14 EXT_VCC15 EXT_VCC脉冲/方向信号输出+5V 端用于共阳极输入的驱动器 16 INCOM1 光耦输入公共端17 XLMT+ X 正向限位信号18 XLMT- X 反向限位信号19 XSTOP0 X 停止信号0可做通用输入信号 20 XSTOP1 X 停止信号1可做通用输入信号 21 YLMT+ Y 正向限位信号22 YLMT- Y 反向限位信号23 YSTOP0 Y 停止信号0可做通用输入信号 24 YSTOP1 Y 停止信号1可做通用输入信号 25 ZLMT+ Z 正向限位信号26 ZLMT- Z 反向限位信号27 ZSTOP0 Z 停止信号0可做通用输入信号 28 ZSTOP1 Z 停止信号1可做通用输入信号 29 EXTOUT_GND 输出信号公共地端第 8 页 共 17 页 30 EXTOUT_GND 输出信号公共地端31 OUT0 输出信号032 OUT1 输出信号133 OUT2 输出信号234 OUT3 输出信号235 OUT4 输出信号436 OUT5 输出信号537 NC 空脚J2 线号说明线号 符号 说明 1 WPU+ W 脉冲信号+第 9 页 共 17 页 2 WPU- W 脉冲信号-3 WDR+ W 方向信号+4 WDR- W 方向信号-5 UPU+ U 脉冲信号+6 UPU- U 脉冲信号-7 UDR+ U 方向信号+8 UDR- U 方向信号-9 VPU+ V 脉冲信号+10 VPU- V 脉冲信号-11 VDR+ V 方向信号+12 VDR- V 方向信号-13 EXT_VCC 14 EXT_VCC15 EXT_VCC脉冲/方向信号输出+5V 端用于共阳极输入的驱动器 16 INCOM2 光耦输入公共端17 WLMT+ W 正向限位信号18 WLMT- W 反向限位信号19 WSTOP0 W 停止信号0可做通用输入信号 20 WSTOP1 W 停止信号1可做通用输入信号 21 ULMT+ U 正向限位信号22 ULMT- U 反向限位信号23 USTOP0 U 停止信号0可做通用输入信号 24 USTOP1 U 停止信号1可做通用输入信号 25 VLMT+ V 正向限位信号26 VLMT- V 反向限位信号27 VSTOP0 V 停止信号0可做通用输入信号 28 VSTOP1 V 停止信号1可做通用输入信号 29 EXTOUT_GND 输出信号公共地端第 10 页 共 17 页 30 EXTOUT_GND 输出信号公共地端31 OUT6 输出信号632 OUT7 输出信号733 OUT8 输出信号834 OUT9 输出信号935 OUT10 输出信号1036 OUT11 输出信号1137 NC 空脚J3线号说明线号 符号说明1 XECA2 XECB3 XINPOS4 XSTOP25 YALARM6 XIN07 ZECA8 WECA9 ZINPOS10 ZSTOP211 WALARM12 ZIN013 UECA14 VECA15 UINPOS16 USTOP217 V ALARM18 UIN019 VCC20 GND21 YECA22 YECB23 XALARM24 YINPOS25 YSTOP226 YIN027 ZECB28 WECB第 11 页共 17 页29 ZALARM30 WINPOS31 WSTOP232 WIN033 UECB34 VECB35 UALARM36 VINPOS37 VSTOP238 VIN039 VCC40 GNDJ4线号说明线号符号说明1 OUT12 开关量输出点第 12 页共 17 页第 13 页 共 17 页 2 OUT133 OUT144 OUT155 OUT166 OUT177 OUT188 OUT199 OUT2010 OUT2111 OUT2212 OUT2313 OUT2414 OUT2515 OUT2616 OUT2717 OUT2818 OUT2919 OUT3020 OUT3121 GND 22 GND内部电源地线23 VCC 24 VCC内部+5V 电源正端25 +12V 内部+12V 电源正端a. 脉冲输出的接法脉冲输出为差动输出方式第 14 页 共 17 页可与步进/伺服驱动器很方便的连接下图为脉冲与方向的阳极已连通的接法下图为脉冲与方向信号独立的接法建议采用此种方法因为是差动接法抗干扰性强b. 数字输入的连接第 15 页 共 17 页c. 数字输出的连接输出为光耦隔离输出最大电流100mA J2的输出 注意如接感性负载如继电器电磁阀等应如图加上续流二极管否则易造成输出点的损坏第 16 页 共 17 页四 软件安装请参考Adt850说明书中的软件安装五 功能说明请参考Adt850说明书中的功能说明六 Adt856库函数列表请参考Adt850说明书中的库函数列表Adt856与Adt850库函数列表不同之处Adt856新增函数int adt856_initial();int adt856_end();int inp_move6(int cardno,long pulse1,long pulse2,long pulse3,longpulse4,long pulse5,long pulse6);Adt856废除函数int adt850_initial();int adt850_end();int read_di(int cardno,unsigned long *value);int write_do(int cardno,unsigned long value);七 Adt856库函数祥解请参考Adt856说明书中的库函数列表, Adt856与Adt850库函数祥解不同之处1. Adt856库函数的输入参数中若要求输入轴号轴号的范围可为1-6分别对应为X 轴Y 轴Z 轴W 轴U 轴V 轴 2 int adt856_initial()的功能及用法与int adt850_initial()相同4 int adt856_end()的功能及用法与int adt850_end()相同5 六轴直线插补int inp_move6(int cardno,long pulse1,long pulse2,long pulse3,long pulse4,long pulse5,long pulse6)cardno 卡号pulse1, pulse2,pulse3,pulse4,pulse5, pulse6X-Y-Z-W-U-V轴移动的相对距离返回值0正确1错误注意六轴插补的速度以X 轴速度为基准Z与U轴的倍率及驱动速度应设置和X 轴的倍率及驱动速度相同Z与U轴的初速度应设置成与X轴的驱动速度一样不是X 轴的初始速度Y W V无须设定第 17 页共 17 页。

产品特性●低失调电压:20uV（最大值）●输入补偿漂移：0.005μV/°C●高增益带宽积：11MHz●轨到轨输入/输出●高增益，共模抑制比，电源抑制比：120dB（典型值）●高转换率：8.5V/μs●低噪声：电压幅度0.48uVp-p(0.1~10Hz)●低功耗：平均每个运算放大器为1.3mA●过载恢复时间：0.4us●低电源电压：+2.9V至+5.5V●无需外置电容器●扩展工作温度:-40°C至+125°C产品应用●温度传感器●医疗、工业测量仪表●压力传感器●电源供电仪器●有源滤波器●重量刻度传感器●应变计量放大器●电源转换器、逆变器产品描述CBM8561,CBM8562,CBM8564（双电源供电，可完全关断）系列型号的CMOS运算放大器使用自动调零技术同步提供极低的失调电压（最大为20μV），超温超时使用时接近于零漂移。

该系列放大器具有超低的噪音、失调和功率。

这种微型、高精度运算放大器具有高偏移输入阻抗，轨至轨输入和轨至轨输出摆幅，还具有11MHz的高增益带宽积和8.5V/μs的转换速率。

使用最低+2.9V(±1.45V)，最高+5.5V(±2.75V)的单电源或双电源。

CBM8561,CBM8562,CBM8564（双电源供电，可完全关断）系列专门为温度范围由-40°C至125°C 的工业环境和汽车应用而设计。

CBM8561单电源放大器采用5引脚SOT23、8引脚MSOP8和8引脚SOIC封装，CBM8562双电源放大器采用8引脚SOIC、8引脚MSOP窄面嵌入封装，CBM8564四电源放大器采用14引脚SOIC、14引脚窄TSSOP封装。

专芯发展•用芯服务•创芯未来CATALOG产品特征....................................................................................................................................................产品应用....................................................................................................................................................产品描述....................................................................................................................................................引脚配置 (1)绝对额定参数(1) (2)电气特性 (3)典型特性 (5)应用说明 (8)工作电压 (8)布局指南 (8)外形尺寸及封装 (9)MSOP-8封装 (9)TSSOP-14封装 (10)SOP8封装 (11)SOIC-14(SOP14)封装 (12)SOT23-5封装 (13)包装/订购信息 (14)专芯发展•用芯服务•创芯未来专芯发展•用芯服务•创芯未来引脚配置SOT23-5SOIC-8(SOP8),MSOP-8SOIC-8(SOP8),MSOP-8MSOP-10SOIC-14(SOP14),TSSOP-14提示：NC 表示没有内部连接。

ADG621BRMZ .CMOS ±5 V/+5 V,Rev. BInform ation furnished by Analog Devices is believed to be accurate and reliable. However , no respo nsibility is assumed by Analo g Devices fo r its u se, nor for any infringements of patents or o ther rights of third parties that m ay result from its use. Specificatio ns subj ect to change without notice. No license is granted by implication o r otherwise u nder any patent or patent rights of Analo g Devices. Trademarks and registered tradem arks are the property of their respective o wners.One Technology Way, P.O. Box 9106, Norwood, M A 02062-9106, U.S.A.Tel: 781.329.4700 Fax: 781.461.3113 ©2001–2009 Analog Devices, Inc. All rights reserved.FEATURES5.5 Ω (maximum) on resistance0.9 Ω (maximum) on resistance flatness 2.7 V to 5.5 V single supply ±2.7 V to ±5.5 V dual supply Rail-to-rail operation 10-lead MSOP packageTypical power consumption (<0.01 µW) TTL-/CMOS-compatible inputsAPPLICATIONSAutomatic test equipment Power routingCommunication systems Data acquisition systems Sample-and-hold systems AvionicsRelay replacementsBattery-powered systemsGENERAL DESCRIPTIONThe ADG621/ADG622/ADG623 are monolithic, CMOS, single-pole, single-throw (SPST) switches. Each switch of the ADG621/ADG622/ADG623 conducts equally well in both directions when on.The ADG621/ADG622/ADG623 contain two independent switches. The ADG621 and ADG622 differ only in that both switches are normally open and normally closed. In the ADG623, Switch 1 is normally open, and Switch 2 is normally closed. The ADG623 exhibits break-before-make switching action. The ADG621/ADG622/ADG623 offer low on resistance of 4 Ω, which is matched to within 0.25 Ω between channels. These switches also provide low power dissipation yet give high switching speeds. The ADG621/ADG622/ADG623 are available in a 10-lead MSOP package.FUNCTIONAL BLOCK DIAGRAMSNOTES1. SWITCHES SHOWN FOR A LOGIC 0 INPUT02616-001Figure 1.NOTES1. SWITCHES SHOWN FOR A LOGIC 0 INPUT02616-002Figure 2.IN1D2S2S1D1IN2NOTES1. SWITCHES SHOWN FOR A LOGIC 0 INPUT02616-003Figure 3.PRODUCT HIGHLIGHTS1. Low on resistance, R ON (4 Ω typical).2. Dual ±2.7 V to ±5.5 V or single +2.7 V to +5.5 V .3. Low power dissipation; CMOS construction ensures lowpower dissipation. 4. Tiny 10-lead MSOP package.OBS OL ERev. B | Page 2 of 12TABLE OF CONTENTSFeatures .............................................................................................. 1 Applications ....................................................................................... 1 General Description ......................................................................... 1 Functional Block Diagrams ............................................................. 1 Product Highlights ........................................................................... 1 Revision History ............................................................................... 2 Specifications ..................................................................................... 3 Dual Supply ................................................................................... 3 Single Supply ................................................................................. 4 Absolute Maximum Ratings.............................................................5 ESD Caution...................................................................................5 Pin Configuration and Function Descriptions ..............................6 Terminology .......................................................................................7 Typical Performance Characteristics ..............................................8 Test Circuits ......................................................................................10 Outline Dimensions ........................................................................12 Ordering Guide. (12)REVISION HISTORY11/09—Rev. A to Rev. BChanges to Table 5 ............................................................................ 5 Changes to Ordering Guide .......................................................... 12 6/07—Rev. 0 to Rev. AChange to On Resistance Flatness, R FLAT(ON)Specification (Table 1) ...................................................................... 3 Change to On Resistance Flatness, R FLAT(ON)Specification (Table 2) ...................................................................... 4 Added Table 6.................................................................................... 6 Changes to Terminology Section.................................................... 7 Changes to Figure 13 ........................................................................ 9 Updated Outline Dimensions ....................................................... 12 Changes to Ordering Guide . (12)11/01—Revision 0: Initial VersionOBS OL E T ESPECIFICATIONSDUAL SUPPLY1V DD = +5 V ± 10%, V SS = −5 V ± 10%, GND = 0 V, unless otherwise noted.1 Temperature range is as follows: B version, –40°C to +85°C.2 Guaranteed by design; not subject to production test.Rev. B | Page 3 of 12Rev. B | Page 4 of 12SINGLE SUPPLY 1V DD = 5 V ± 10%, V SS = 0 V , GND = 0 V , unless otherwise noted.1 Temperature range is as follows: B Version, –40°C to +85°C. 2Guaranteed by design; not subject to production test.Rev. B | Page 5 of 12ABSOLUTE MAXIMUM RATINGST A = 25°C, unless otherwise noted.1Overvoltages at INx, S, or D must be clamped by internal diodes. Currents should be limited to the maximum ratings given.Stresses above those listed under Absolute Maximum Ratingsmay cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those listed in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Only one absolute maximum rating may be applied at any one time.OBSRev. B | Page 6 of 12PIN CONFIGURATION AND FUNCTION DESCRIPTIONSNC = NO CONNECTS1D1IN2GND V SS DD 02616-004Figure 4. 10-Lead MSOP (RM-10)OBS OLRev. B | Page 7 of 12TERMINOLOGYI DDPositive supply current. I SSNegative supply currentV D (V S )Analog voltage on Terminal D and Terminal S. R ONOhmic resistance between Terminal D and Terminal S. R FLAT (ON)On resistance flatness is defined as the difference between the maximum and minimum value of on resistance as measured over the specified analog signal range. ∆R ONOn resistance match between any two channels. I S (Off)Source leakage current with the switch off. I D (Off)Drain leakage current with the switch off. I D , I S (On)Channel leakage current with the switch on. V INLMaximum input voltage for Logic 0. V INHMinimum input voltage for Logic 1. I INL (I INH )Input current of the digital input.C S (Off)Off switch source capacitance. Measured with reference to ground.C D (Off)Off switch drain capacitance. Measured with reference to ground.C D , C S (On)On switch capacitance. Measured with reference to ground. C INDigital input capacitance.t ONDelay time between the 50% and the 90% points of the digital input and switch on condition.t OFFDelay time between the 50% and the 90% points of the digital input and switch off condition.t BBMOn or off time measured between the 90% points of both switches when switching from one address state to another. Charge InjectionA measure of the glitch impulse transferred from the digital input to the analog output during on-off switching. Off IsolationA measure of an unwanted signal coupling through an off switch.CrosstalkA measure of an unwanted signal that is coupled through from one channel to another as a result of parasitic capacitance. −3 dB BandwidthThe frequency at which the output is attenuated by 3 dB. On ResponseThe frequency response of the on switch.Insertion LossThe attenuation between the input and output ports of the switch when the switch is in the on condition and is due to the on resistance of the switch.OBS OL E T ERev. B | Page 8 of 12TYPICAL PERFORMANCE CHARACTERISTICSO N R E S I S T A N C E (Ω)876543210V D , V S (V)Figure 5. On Resistance vs. V D , V S (Dual Supply)V D , V S (V)O N R E S I S T A NC E (Ω)20161284Figure 6. On Resistance vs. V D , V S (Single Supply) V D , V S (V)O N R E S I S T A N C E (Ω)654321Figure 7. On Resistance vs. V D , V S for Different Temperatures(Dual Supply)V D , V S (V)O N R E S I S T A N C E (Ω)10864297531Figure 8. On Resistance vs. V D , V S for Different Temperature(Single Supply)TEMPERATURE (°C)L E A K A G E C U R R E N T (n A )010203040506070800.5–0.50.20.40.30.10–0.1–0.2–0.3–0.4Figure 9. Leakage Current vs. Temperature (Dual Supply)TEMPERATURE (°C)L E A K A G E C U R R E N T (n A )010203040506070800.5–0.50.20.40.30.10–0.1–0.2–0.3–0.4Figure 10. Leakage Current vs. Temperature (Single Supply)Rev. B | Page 9 of 12V SC H A R G E I N J E C T I O N (p C )25020015010050Figure 11. Charge Injection vs. Source VoltageTEMPERATURE (°C)–40–2020406080T I M E (n s )180160080604020140100120Figure 12. t ON /t OFF Times vs. TemperatureFREQUENCY (MHz)A T T EN U A T I O N (d B )0–10–20–30–40–50–60–70–80–90Figure 13. Off Isolation vs. FrequencyFREQUENCY (MHz)A T T E N U A T I O N (dB )0–10–20–30–40–50–60–70–80–90Figure 14. Crosstalk vs. Frequency0.21k101100FREQUENCY (MHz)A T T E N U A T I O N (dB )–2–4–6–8–10–12–14Figure 15. On Response vs. FrequencyRev. B | Page 10 of 12TEST CIRCUITSI DS VV 02616-01702616-018Figure 16. On Resistance Figure 17. Off LeakageFigure 18. On LeakageV V V V V V 02616-019Figure 19. Switching Times (t ON , t OFF )V V OUT1V V V V V OUT1V OUT2VFigure 20. Break-Before-Make Time Delay, t BBM (ADG623 Only)V OUTV INV OUT02616Figure 21. Charge InjectionRev. B | Page 11 of 12V DDV OFF ISOLATION = 20 LOGV OUT V S02616-02Figure 22. Off IsolationCHANNEL-TO-CHANNEL CROSSTALK = 20 LOGV DDV V OUT V S02616-023ΩFigure 23. Channel-to-Channel CrosstalkV DDV INSERTION LOSS = 20 LOGV OUT WITH SWITCH V OUT WITHOUT SWITCH02616-02Figure 24. BandwidthOLRev. B | Page 12 of 12OUTLINE DIMENSIONSCOMPLIANT TO JEDEC STANDARDS MO-187-BA091709-A0.700.550.400.100.950.85Figure 25. 10-Lead Mini Small Outline Package [MSOP](RM-10)Dimensions shown in millimeters1Z= RoHS Compliant Part, # denotes RoHS compliant product and may be top or bottom marked.©2001–2009 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D 02616-0-11/09(B)T EADG621BRMZ .。

Z-8560A-431采用节能直接驱动和针杆无油技术。

可缝制多种缝纫图案，应用更广泛。

电脑直接驱动之字缝缝纫机Z-8550AZ-8550A 和Z-8560A 是仅为旋梭不断提供清洁机油的无油式缝纫机。

针杆及挑线装置周围不会沾油，无需担心机油弄污缝纫物。

采用直接驱动系统，不发生皮带碎屑，所以可以保持缝纫物的清洁。

清洁缝纫• 清洁缝纫• 低耗电节能型号• 反应迅速、缝纫舒适• 操作方便的多功能操作盘• 一台设备可缝纫多种图案DD旋梭油箱电脑直接驱动式自动切线之字缝缝纫机Z-8560A根据磁场分析设计的内置全新直驱马达是同行业最小型的马达。

由于马达驱动直接传输到机械装置，可将能量损耗减少到最小。

耗电量与传统的V皮带驱动方式（AC 伺服马达）相比减少了约50%。

Z-8550A 和Z-8560A 是同行业顶尖节能机型。

平缝工序中必须要有操作人员控制缝纫机运行。

采用电脑直接驱动在操作人员的操作时反应迅速，使其进行更得心应手的缝纫。

操作率耗电量比较达到4,000 rpm 速度所需时间的比较1,0002,0003,0004,000Z-8550A Z-8560A传统机型缝制速度(rpm)0.10.20.17秒0.14秒在设备内存的8种基本类型14种缝制图案。

用户无需为每个图案配备凸轮（零件），使得成本低廉，缝制美观。

用户还可在设备中存储自己的缝制图案。

自定的缝制图案应用广泛，如用于女士服装，针织物，围巾，毛巾手帕，女士内衣和泳衣。

可使用CF卡作为存储媒介方便地存储数据。

（最多存储99种图案，49500个针迹，每种图案最多500个针迹。

可在操作盘或缝制数据程序软件PS-300B（选购件）制作缝制图案。

）用户自制缝制图案增加了产品的附加值简单的针码加密设定可以通过调节刻度盘轻松设置缝迹加密，可在回针时使线迹更精细。

浮动压脚功能压脚的压力范围可根据布料进行微调。

适合于弹性布料与起绒织物的缝制，可避免错位和对织物的损坏。

OPB856ZWide Gap Optical SensorFeatures:x Designed for Industrial applications x Threaded housing (M12 X 1 TH), Nut included x Molded connectors mates with Molex 03-06-2023 plug. x Emitter (White) and Senor (Black) housing color coded Product Photo HereDescription:The OPB856 emitter and sensor pair that consists of an LED (935 nm) and a Phototransistor designed to operate efficiently with each other. They are mounted in a threaded (M12x1TH) color-coded housing. The LED (white) and the Phototransistor (black) are designed to easily panel mount in through a 0.4724” (12.0 mm) hole. A 12 mm nut is included for each housing. Both components is designed to electrically mate with a Molex (03-06-2023) connector. The OPB856 pair are designed to operate with separation distances between the LED and Phototransistor up to 12” (30.48 cm). For Custom electrical, wire and cabling and connectors are available. Contact your local representative or OPTEK for more information.Applications:x x x x xNon-contact interruptive object sensing Assembly line automation Machine automation Equipment security Machine safetyOptical Pair Part Number OPB856ZOrdering InformationLED Peak Wavelength 935 nm Sensor Transistor Connector Type Use Molex 03-06-202311LEDPhototransistor22HousingPlug Pin for PlugLED - WhiteMOLEX 03-06-2023 Male MOLEX 02-06-6122Sensor - BlackMOLEX 03-06-2023 Female MOLEX 02-06-7104White HousingPin # 1 2 LED Anode Cathode 1 2Black HousingPin # Phototransistor Emitter CollectorRoHSOPTEK reserves the right to make changes at any time in order to improve design and to supply the best product possible. Issue A .1 01/06 Page 1 of 3OPTEK Technology Inc. — 1645 Wallace Drive, Carrollton, Texas 75006 Phone: (972) 323-2200 or (800) 341-4747 FAX: (972) 323-2396 sensors@ /OPB856ZWide Gap Optical SensorAbsolute Maximum Ratings (TA=25°C unless otherwise noted)Storage & Operating Temperature Range Lead Soldering Temperature [1/16 inch (1.6 mm) from case for 5 seconds with soldering iron] Input Diode (See OP165 for additional information) Continuous Forward DC Current Reverse Voltage Power Dissipation(1) Output Phototransistor (See OP505 for additional information) Collector-Emitter Voltage Emitter-Collector Voltage Power Dissipation(1)-40° C to +85° C 260° C40 mA 2V 100 mW30 V 5V 100 mWElectrical Characteristics (TA = 25rC unless otherwise noted)SYMBOL PARAMETER MIN TYP MAX UNITS TEST CONDITIONSInput Diode (See OP9999 for additional information) VF IR Forward Voltage Reverse Current 1.7 100 V µA IF = 20 mA VR = 2 VOutput Phototransistor (See OP9999 for additional information) V(BR)CEO V(BR)ECO ICEO Combined IC(ON) On-State Collector Current(3) 1.8 mA VCE = 5 V, IF = 20 mA, d = 2”( (50.8 mm)(2) Collector-Emitter Breakdown Voltage Emitter-Collector Breakdown Voltage Collector Dark Current 30 5 100 V V nA IC = 100 µA IE = 100 µA VCE = 10 V, IF = 0, EE = 0Notes: (1) Derate linearly 1.67 mW/° C above 25 ° C.. (2) Distance between lenses along the optical axis is “d”. (3) All parameters tested using pulse technique.OPTEK reserves the right to make changes at any time in order to improve design and to supply the best product possible. Issue A .1 01/06 Page 2 of 3 OPTEK Technology Inc. — 1645 Wallace Drive, Carrollton, Texas 75006 Phone: (972) 323-2200 or (800) 341-4747 FAX: (972) 323-2396 sensors@ /OPB856ZWide Gap Optical SensorNormalized Collector Current vs. Distance between Emitter and Sensor2.0 1.8 1.6Normalized at d = 2.0" IF = 20mA VCE = 5VNormalized Output Current1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.05 mA 10 mA 20 mA 30 mA 40 mA 50 mA0.02.04.06.08.010.012.014.0Distance to Reflective Surface (inches)OPTEK reserves the right to make changes at any time in order to improve design and to supply the best product possible. OPTEK Technology Inc. — 1645 Wallace Drive, Carrollton, Texas 75006 Phone: (972) 323-2200 or (800) 341-4747 FAX: (972) 323-2396 sensors@ Issue A .1 01/06 Page 3 of 3/分销商库存信息:OPTEK-TECHNOLOGY OPB856Z OPB856。

Designation:B856−11Standard Specification forConcentric-Lay-Stranded Aluminum Conductors,Coated Steel Supported(ACSS)1This standard is issued under thefixed designation B856;the number immediately following the designation indicates the year of original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(´)indicates an editorial change since the last revision or reapproval.1.Scope1.1This specification covers round wire concentric-lay-stranded aluminum conductors,steel supported(ACSS)for use as overhead electrical conductors(see Explanatory Note1).1.2The values stated in inch-pound or SI units are to be regarded separately as standard.Each system shall be used independently of the bining values from the two systems may result in nonconformance with the specification. For conductor sizes designated by AWG or kcmil sizes,the requirements in SI units are numerically converted from the corresponding requirements in inch-pound units.For conductor sizes designation by AWG or kcmil,the requirements in SI units have been numerically converted from corresponding values stated or derived in inch-pound units.For conductor sizes designated by SI units only,the requirements are stated or derived in SI units.1.2.1For density,resistivity and temperature,the values stated in SI units are to be regarded as standard.2.Referenced Documents2.1The following documents of the issue in effect on date of material purchase form part of this specification to the extent referenced herein:2.2ASTM Standards:2B263Test Method for Determination of Cross-Sectional Area of Stranded ConductorsB354Terminology Relating to Uninsulated Metallic Electri-cal ConductorsB498/B498M Specification for Zinc-Coated(Galvanized) Steel Core Wire for Use in Overhead Electrical Conduc-torsB500/B500M Specification for Metallic Coated or Alumi-num Clad Stranded Steel Core for Use in Overhead Electrical ConductorsB502Specification for Aluminum-Clad Steel Core Wire for Use in Overhead Electrical Aluminum ConductorsB549Specification for Concentric-Lay-Stranded Aluminum Conductors,Aluminum-Clad Steel Reinforced for Use in Overhead Electrical ConductorsB606Specification for High-Strength Zinc-Coated(Galva-nized)Steel Core Wire for Aluminum and Aluminum-Alloy Conductors,Steel ReinforcedB609/B609M Specification for Aluminum1350Round Wire,Annealed and Intermediate Tempers,for Electrical PurposesB802/B802M Specification for Zinc–5%Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Aluminum Conductors,Steel Reinforced(ACSR)B803Specification for High-Strength Zinc–5%Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Use in Overhead Electrical ConductorsB857Specification for Shaped Wire Compact Concentric-Lay-Stranded Aluminum Conductors,Coated-Steel Sup-ported(ACSS/TW)B957Specification for Extra-High-Strength and Ultra-High-Strength Zinc-Coated(Galvanized)Steel Core Wire for Overhead Electrical ConductorsB958Specification for Extra-High-Strength and Ultra-High-Strength Class A Zinc–5%Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Use in Overhead Electrical ConductorsE29Practice for Using Significant Digits in Test Data to Determine Conformance with SpecificationsE527Practice for Numbering Metals and Alloys in the Unified Numbering System(UNS)2.3Other Standards:Aluminum Association Publication50Code words for Over-head Aluminum Electrical Conductors3NBS Handbook100—Copper Wire Tables of the National Bureau of Standards41This specification is under the jurisdiction of ASTM Committee B01on Electrical Conductors and is the direct responsibility of Subcommittee B01.07on Conductors of Light Metals.Current edition approved April1,2011.Published May2011.Originally approved st previous edition approved in2003as B856-03.DOI: 10.1520/B0856-11.2For referenced ASTM standards,visit the ASTM website,,or contact ASTM Customer Service at service@.For Annual Book of ASTM Standards volume information,refer to the standard’s Document Summary page on the ASTM website.3Available from the Aluminum Association,Inc.,90019th Street,NW,Suite 300,Washington,DC2006.4Available from National Technical Information Services,5285Port Royal Road,Springfield,V A22161.Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959.United States3.Terminology3.1For definitions of terms relating to conductors refer to definitions found in Specification B354.3.2Definitions:3.2.1aluminum-clad—aluminum bonded.3.2.2galvanized—zinc coated.3.2.3Zn-5A1-MM—Zinc-5%Aluminum-Mischmetal Alloy (Zn-5A1-MM)coated.3.3Abbreviations:3.3.1ACSS—aluminum conductor,steel supported.3.3.2ACSS/AW2—supported with regular strength aluminum-clad core wire in accordance with Specification B502.3.3.3ACSS/AW3—supported with high strength aluminum-clad core wire in accordance with Specification B502.3.3.4ACSS/GA2—supported with regular strength galva-nized steel core wire,coating Class A in accordance with Specification B498/B498M.3.3.5ACSS/GC2—supported with regular strength galva-nized steel core wire,coating Class C in accordance with Specification B498/B498M.3.3.6ACSS/GA3—supported with high-strength galvanized steel core wire in accordance with Specification B606.3.3.7ACSS/GA4—supported with extra-high strength zinc Class A coated steel core wire in accordance with Specification B957.3.3.8ACSS/GA5—supported with ultra-high strength zinc Class A coated steel core wire in accordance with Specification B957.3.3.9ACSS/MA2—supported with regular strength Zn-5A1-MM coated steel core wire,coating Class A in accordance with Specification B802/B802M.3.3.10ACSS/MA3—supported with high-strength Zn-5A1-MM coated steel core wire in accordance with Specifica-tion B803.3.3.11ACSS/MA4—supported with extra-high strength Zinc-5%Aluminum-Mischmetal Alloy(Zn-5A1-MM)Coated steel core wire in accordance with Specification B958.3.3.12ACSS/MA5—supported with ultra-high strength Zinc-5%Aluminum-Mischmetal Alloy(Zn-5A1-MM)Coated steel core wire in accordance with Specification B958.4.Ordering Information4.1Orders for material under this specification shall include the following information:4.1.1Quantity of each size,stranding,and class,4.1.2Conductor size,circular-mil area or AWG,and diam-eter(see Section9and Table1),4.1.3Number of wires,aluminum and steel,4.1.4Type of steel core wire and class(if applicable)of coating(see5.2),4.1.5Direction of lay of outer layer of aluminum wires if other than right hand(see7.3),4.1.6Special tension test,if desired(see14.3),4.1.7Package size and type(see16.1),4.1.8Special package markings,if required(see16.4), 4.1.9Heavy wood lagging,if required(see16.3),and4.1.10Place of inspection(see Section15).5.Requirement for Wires5.1After stranding,the round aluminum wires shall con-form to the requirements of Specification B609/B609M for 1350-0temper,except for elongation requirements.The elon-gation shall not be less than20%after stranding.5.2Before stranding,the steel core wire shall meet the requirements of Specification B498/B498M,B606,B802/ B802M,B803,B957,or B958,whichever is applicable.5.3The stranded steel core shall meet the requirements of Specification B500/B500M as applicable.6.Joints6.1Electric-butt welds,cold-pressure welds,and electric-butt,cold-upset welds in thefinished individual aluminum wires composing the conductor may be made during the stranding process.No weld shall occur within50ft(15m)of a weld in the same wire or in any other wire of the completed conductor(see Explanatory Note2).6.2There shall be no joints of any kind made in thefinished coated steel wires.y7.1The length of lay of the various layers of aluminum wires in a conductor shall conform to Table2(see Explanatory Note3).7.2The length of lay of the various layers of steel wires ina conductor shall conform to Specification B500/B500M.7.3The direction of lay of the outside layer of aluminum wires shall be right hand unless otherwise specified in the purchase order.The direction of lay of the aluminum and steel wires shall be reversed in successive layers.8.Construction8.1The number and diameter of the aluminum and steel wires and the area of cross section of the aluminum wires for standard constructions are shown in Table1.8.2ACSS may be constructed using steel core wire with a number of different types.The acceptable core wires are,but not limited to:8.2.1Regular strength Galvanized steel core wires,with coating Classes A or C(designated GA2and GC2)in accor-dance with Specification B498/B498M(see Explanatory Note 9);8.2.2High-strength galvanized steel core wire,coating Class A(designated GA3)in accordance with Specification B606(see Explanatory Note9);8.2.3Regular strength Zn-5A1-MM coated steel core wire, coating Class A(designated MA2)in accordance with Speci-fication B802/B802M;8.2.4High-strength Zn-5A1-MM coated steel core wire, coating Class A(designated MA3)in accordance with Speci-fication B803; B856−118.2.5Extra-high-strength galvanized steel core wire coating Class A (designated GA4)in accordance with Specification B957(see Explanatory Note 9);8.2.6Extra-high-strength Zn-5Al-MM coated steel core wire,coating Class A (designated MA4)in accordance with Specification B958;8.2.7Ultra-high-strength galvanized steel core wire coating Class A (designated GA5)in accordance with Specification B957(see Explanatory Note 9);8.2.8Ultra-high-strength Zn-5Al-MM coated steel core wire,coating Class A (designated MA5)in accordance with Specification B958;8.2.9Regular strength Aluminum Clad steel (designated AW2in accordance with B502;8.2.10High-strength Aluminum Clad steel (designated AW3in accordance with B502.9.Rated Strength of Conductor9.1The rated strength of the completed ACSS conductor shall be taken as the aggregate strengths of the aluminum and steel components,calculated as follows.The strength contri-bution of the aluminum wires shall be taken as that percentage,indicated in Table 3,of the sum of the strengths of the 1350-0wires calculated from their minimum average tensile strengthsspecified in Specification B609/B609M .The strength contri-bution of the steel core wires shall be taken as that percentage,indicated in Table 3,of the sum of the strengths of the steel wires,calculated from their specified nominal wire diameter and the appropriate minimum ultimate tensile strengths given in Specification B498/B498M ,B502,B549,B606,B802/B802M ,B803,B957,or B958,whichever is applicable.9.2Rated strength and breaking strength values shall be rounded to three significant figures,in the final value only,in accordance with the rounding method of Practice E29.9.3Rated strength of typical constructions are given in Table 1.10.Density10.1For the purpose of calculating mass,cross sections,and so forth,the density of aluminum 1350shall be taken as 0.0975lb/in.3(2705kg/m 3)at 20°C (see Explanatory Note 4).10.2For the purpose of calculating mass,cross sections,and so forth,the density of galvanized or Zn-5A1-MM alloy coated steel wire shall be taken as 0.281lb/in.3(7780kg/m 3)at 20°C.10.3For the purposes of calculating mass,cross sections,and so forth,the density of aluminum-clad steel wire shall be taken as 0.2381lb/in.3(6590kg/m 3)at 20°C.11.Mass and Electrical Resistance11.1The mass and electrical resistance of a unit length of stranded conductor are a function of the length of lay.The approximate weight and electrical resistance may be deter-mined using the standard increments shown in Table 3.When greater accuracy is desired,the increment based on the specific lay of the conductor may be calculated (see Explanatory Note 5).11.2In the calculation of the electrical resistance of a conductor,the zinc-coated,Zn-5A1-MM-coated,steel core wires shall be taken as 0.19157V ·mm 2/m at 20°C and the resistivity of aluminum-clad steel core wires shall be taken as 0.0848V ·mm 2/m at 20°C.These are typical values and are not guaranteed.The electrical resistance of the aluminum wires shall be taken as 0.0279V ·mm 2/m at 20°C.TABLE 2Lay Factors for Aluminum Conductors,Steel-Supported (ACSS),Concentric-Lay-Stranded AStranding Class StrandingRatio of Length of Lay of a Layer to Nominal Outside Diameter of That LayerAluminum Wire LayersFirst (Outside)SecondThirdFourth (Inside)minpref Bmax min pref max min max min max AA76/19,84/191011131013161017101772/71011131013161017101754/191011131013161017......54/7,45/71011131013161017......30/19101113101316............30/7,26/7,24/7101113101316............16/191012.514.5.....................12/71012.514.5.....................A See Specification B500/B500M for lay factors of the steel core wires.BPreferred (pref).TABLE 3Standard Increments and Rating Factors for Mass,Resistivity,and Rated Strength DeterminationStranding Design Aluminum/SteelStandard Increments Due toStranding (for Mass and Resistivity)Increase Rating Factors (for RatedStrength)Aluminum,%Steel,%Aluminum,%Steel,%12/72.50.49610024/7 2.50.49610026/7 2.50.49610030/7 2.750.49610042/7 2.50.49610045/7 2.50.49610048/7 2.50.49610054/7 2.50.49610072/73.00.49610016/19 2.50.69610030/19 2.750.69610054/19 3.00.69610076/19 3.00.69610084/193.00.69610012.Workmanship,Finish,and Appearance12.1The conductor shall be free of all imperfections not consistent with good commercial practice.13.Variation in Area13.1The area of cross section of the aluminum wires of a conductor shall be not less than98%of the area specified. Unless otherwise specified by the purchaser,the manufacturer may have the option of determining the cross-sectional area by either of the following methods,except that in case of a question regarding area compliance,the method of13.1.2shall be used:13.1.1The area of cross section may be determined by calculations from diameter measurements,expressed to four decimal places,of the component aluminum wires at any point when measured perpendicularly to their axes.13.1.2The area of cross section of the aluminum wires of a conductor may be determined by Test Method B263.In applying that method the increment in linear density resulting from stranding may be the applicable value specified in13.1or may be calculated from the measured component dimensions of the sample under test.In case of a question regarding area compliance,the actual linear density increment due to strand-ing shall be calculated.14.Mechanical and Electrical Tests14.1Tests for mechanical and electrical properties of alu-minum wires shall be made after stranding(see Explanatory Note6).14.2The electrical resistivity shall meet the minimum resistivity specified for the wire after stranding.The frequency of these tests shall be agreed upon between the purchaser and the manufacturer.14.3Tests for demonstration of rated strength of the com-pleted conductor are not required by this specification but may be made if agreed upon between the manufacturer and the purchaser at the time of placing an order.If tested,the breaking strength of the completed conductor shall be not less than the rated strength if failure occurs in the free length at least1in. (25mm)beyond the end of either gripping device,or shall be not less than95%of the rated strength if failure occurs inside,or within1in.(25mm)of the end of either gripping device (see Explanatory Note7).14.4Tests for all properties of zinc-coated,Zn-5A1–MM coated,or aluminum-clad steel wires shall be made before stranding(see Explanatory Note5).15.Inspection15.1Unless otherwise specified in the contract or purchase order,the manufacturer shall be responsible for the perfor-mance of all inspection and test requirements specified. 15.2All inspections and tests shall be made at the place of manufacture unless otherwise especially agreed upon between the manufacturer and the purchaser at the time of the purchase.15.3The manufacturer shall afford the inspector represent-ing the purchaser all reasonable manufacturer’s facilities to satisfy him that the material is being furnished in accordance with this specification.16.Packaging and Package Marking16.1Package sizes and kind of package,reels or coils,shall be agreed upon between the manufacturer and the purchaser. Recommended package sizes are shown in Table4(see Explanatory Note8).16.2There shall be only one length of conductor on a reel.16.3The conductors shall be protected against damage in ordinary handling and shipping.If heavy wood lagging is required,it shall be specified by the purchaser at the time of placing the purchase order.16.4The net linear density,length,size,kind of conductors, stranding,type of coating,class of coating,and any other necessary identification shall be marked on a tag attached to the end of the conductor inside the package.This same informa-tion,together with the purchase order number,the manufac-turer’s serial number(if any),and all shipping marks and other information required by the purchaser shall appear on the outside of the package.17.Keywords17.1ACSS;aluminum conductors;concentric-lay stranded aluminum conductors;electrical conductors;electrical conduc-tors;aluminum;steel-reinforced conductors;steel-supported aluminum conductors;stranded aluminumconductorsTABLE 4Packaging Information—Recommended Reel Sizes,Shipping Lengths,and Net MassesSizeStranding Design Aluminum/Steel Reel TypesRMTRM NRcmil AWG Reel Size Length on Reel (feet)Net Mass (lb)Reel Size Length on Reel (feet)Net Mass (lb)Reel Size Length onReel(feet)Net Mass(lb)2312000...76/1996.60700017660..................2167000...72/796.60700016100..................2156000...84/1996.60750018810..................1780000...84/1996.60920019060..................1590000...54/1990.4557401172068.3828705860.........1590000...45/790.4560001074068.383000537060.28200035801510500...54/1990.4560401171068.3830205850.........1510500...45/790.4563201074068.383160537060.28211035901431000...54/1990.4563751172068.3831905860.........1431000...45/790.4566651073068.383335537060.28222035801351000...54/1990.4567551172068.3833755860.........1351000...45/790.4570601074068.383530537060.28235535801272000...54/1990.4571751172068.3835855860.........1272000...45/790.4575001074068.383750537060.28250035801192500...54/1990.4576501172068.3838255860.........1192500...45/790.4580001074068.384000537060.28266535801113000...54/1990.4582001173068.3841005860.........1113000...45/790.4585701074068.384285537060.28285535801033500...54/790.4588701179068.3844355890.........1033500...45/790.4592301073068.384615537060.2830753580954000...54/790.4596001178068.3848005890.........954000...45/790.45100001074068.385000537060.2833353580900000...54/790.45101801179068.3850905890.........900000...45/790.45105901073068.385295536060.2835303580795000...30/1984.457980985066.3239904920.........795000...54/790.45115201178068.3857605890.........795000...45/790.45120001074068.386000537060.2840003580795000...26/784.3669407590.........60.2834703790795000...24/784.3664006540.........60.2832003270715500...30/1984.458880985066.3244404930.........715500...26/784.3677107580............60.2838553790715500...24/784.3671006540.........60.2835503270666600...26/784.3682807590.........60.2841403790666600...24/784.3676306550.........60.2838153270636000...30/1984.459980985066.3249904930.........636000...30/7.........66.3250054980.........636000...26/784.3686707580.........60.2843353790636000...24/784.3680006550.........60.2840003270605000...30/1984.4510490985066.3252454920.........605000...30/7.........66.3252454960.........605000...26/784.3691107570.........60.2845553790605000...24/784.3684106550.........60.2842053270556500...30/7.........66.3257004960.........556500...26/784.3699107580.........60.2849553790556500...24/784.3691406550.........60.2845703270477000...30/7.........66.3266504960.........477000...26/784.36115607580.........60.2857803790477000...24/784.36106606540.........60.2853303270397500...30/7.........66.3279804960.........397500...26/784.36138707570.........60.2869353790397500...24/784.36127906540.........60.2863953270336400...30/7.........66.3294304960......336400...26/784.36163907570.........60.2881953790300000...26/7..................60.2891903790266800...26/7..................60.28103303790211300...12/7..................48.2860203170203200...16/19.........66.3278755310.........190800...12/7..................48.2866653170176900...12/7..................48.2871953170159000...12/7..................48.2880003170134600...12/7..................48.2894503170110800...12/7..................48.28114803170101800...12/7..................48.28125003170EXPLANATORY NOTESN OTE1—In this specification only,concentric-lay-stranded aluminum conductors,steel supported,are specifically designated.Conductor con-structions not included in this specification should be agreed upon between the manufacturer and the purchaser when placing the order. Requirements of shaped wire compact concentric-lay-stranded aluminum conductors,steel supported may be found in specification B857.N OTE2—The behavior of properly spaced wire joints in stranded conductors is related to both their tensile strength and elongation.Because of its higher elongation properties,the lower-strength electric-butt weld gives equivalent overall performance to that of a cold-pressure weld or an electric-butt,cold-upset weld in stranded conductors.N OTE3—The preferred ratio of the lay with respect to the outside diameter of a layer of wires varies for different layers and for different diameters of the conductor,being larger for the inside layers than for the outside layers,and larger for conductors of smaller diameter than for those of larger diameter.N OTE4—The density is based upon aluminum of99.50%purity.The inch-pound density of the aluminum wires is used for linear density calculations and is based upon the standard SI density with the conversion rounded to the nearest0.0005lb/in.3N OTE5—The increment of weight or electrical resistance of a com-pleted concentric-lay-stranded conductor(k)in percent is as follows:k5100~m21!(1) where m is the stranding factor,and also the ratio of the weight or electrical resistance of a unit length of stranded conductor to that of a solid conductor of the same cross-sectional area or of a stranded conductor with infinite length of lay,this is,all wires parallel to the conductor axis.The stranding factor m for the completed stranded conductor is the numerical average of the stranding factors for each of the individual wires in the conductor,including the straight core wire,if any(for which the stranding factor is unity).The stranding factor(m ind)for any given wire in a concentric-lay-stranded conductor is:mind5=11~9.8696/n2!(2) where:n=length of laydiameter of helical path of wires(3)The derivation of the above is given in NBS Handbook100.4The factors k and m are to be determined separately for the zinc-coated or aluminum-coated steel(see Section7).N OTE6—Wires unlaid from conductors may have different physical properties from those of the wire when prepared for cabling,on account of the deformation caused by laying and again straightening for test.If tests on galvanized or aluminum-coated steel wires are to be made after stranding,the purchaser and the manufacturer at the time of placing the order should agree on the properties to be met.N OTE7—To test ACSS conductors for breaking strength successfully as a unit requires special devices for gripping the ends of the aluminum and steel wires without causing damage that may result in failure below the actual strength of the conductor.Various special dead-end devices are available such as compression sleeves and split sleeves,but ordinary jaws or clamping devices usually are not suitable.N OTE8—For the convenience of the user of this specification,Table4 has been prepared giving recommended shipping lengths for the standard sizes of ACSS referred to in Table1.Because of the variation in coil weights,and so forth,it is common practice to allow a permissible tolerance in length of65%for sizes larger than No.1AWG and a tolerance of610%on sizes No.1AWG and smaller.It is also common practice to allow an amount not exceeding10%of the total weight of any one order to be shipped in random lengths with no piece shorter than50% of the standard length ordered.N OTE9—Industry practice has limited the use of ACSS conductors built with zinc galvanized steel core material to an operational conductor temperature limit of200°C.ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed everyfive years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM International Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959, United States.Individual reprints(single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at610-832-9585(phone),610-832-9555(fax),or service@(e-mail);or through the ASTM website ().Permission rights to photocopy the standard may also be secured from the ASTM website(/COPYRIGHT/).。

AUTOCALL AND PROXIMITY PAIRING iWRAP APPLICATION NOTESaturday, 09 June 2012Version 1.8Copyright © 2000-2012 Bluegiga TechnologiesAll rights reserved.Bluegiga Technologies assumes no responsibility for any errors which may appear in this manual. Furthermore, Bluegiga Technologies reserves the right to alter the hardware, software, and/or specifications detailed here at any time without notice and does not make any commitment to update the information contained here. Bluegiga’s products are not aut horized for use as critical components in life support devices or systems.The WRAP, Bluegiga Access Server, Access Point and iWRAP are registered trademarks of Bluegiga Technologies.The Bluetooth trademark is owned by the Bluetooth SIG Inc., USA and is licensed to Bluegiga Technologies. All other trademarks listed herein are owned by their respective owners.VERSION HISTORYTABLE OF CONTENTS1Introduction (5)1.1Inquiry and Pairing (6)2Using Autocall with iWRAP (7)3Using Autopair with iWRAP (9)4References (11)5Contact Information (12)iWRAP® Embedded Bluetooth Stack OverviewiWRAP is an embedded firmware running entirely on the RISC processor of WT12, WT11, WT41 and WT32 modules. It implements the full Bluetooth protocol stack and many Bluetooth profiles as well. All software layers, including application software, run on the internal RISC processor in a protected user software execution environment known as a Virtual Machine (VM).The host system can interface to iWRAP firmware through one or more physical interfaces, which are also shown in the figure below. The most common interfacing is done through the UART interface by using the ASCII commands that iWRAP firmware supports. With these ASCII commands, the host can access Bluetooth functionality without paying any attention to the complexity, which lies in the Bluetooth protocol stack. GPIO interface can be used for event monitoring and command execution. PCM, SPDIF, I2S or analog interfaces are available for audio. The available interfaces depend on the used hardware.The user can write application code to the host processor to control iWRAP firmware using ASCII commands or GPIO events. In this way, it is easy to develop Bluetooth enabled applications.On WT32 there is an extra DSP processor available for data/audio processing.HardwareFigure 1: iWRAP Bluetooth stack1 IntroductionThis application note discusses the Autopair and Autocall features of the iWRAP Software. Both features can be enabled/disabled through iWRAP Command interface and are useful is setting up automatic pairing and connection with remote Bluetooth devices with a known device address1.1 Inquiry and PairingFor autocall functionality to be used, the INQUIRY command needs to be first issued by the host wishing to make an automatic pairing with the remote device. This command can be skipped if the remote Bluetooth device is already paired with the Bluegiga module. For further detail of the INQUIRY command, please refer to the iWRAP User Guide.So we have discovered a device named “R2-D4” with the MAC or Bluetooth Address 00:07:80:65:d9:c2. Our next step is to intiate connection pairing from the module to a remote device. To do this, the module must be configured with Secured Simple Pairing (if connecting to a Bluetooth 2.1 + EDR remote device).legacy four digit pairing code,reset and then initiate a RFCOMM connection to the remote device. Please refer to the iWRAP User Guide for more info about Sectured Simple Pairing parameters.At this point, the iWRAP firmware in the module is ready and is bonded with the remote device. Next section we shall setup AUTOCALL functionality to a remote device. The Bluetooth profile we will use for autocall feature is HSP. A common use case would be a headset which automatically calls over a regular interval to a mobile phone in case the Bluetooth connection is lost between them.2 Using Autocall feature in iWRAPOne of the many important features which has been integrated into iWRAP is the Autocall command. With Autocall enabled, the Bluegiga module is able to re-establish a broken connection at periodic interval. This is useful for example when the application needs to have a persistent connection to the remote device. For exemplary purposes, let’s consider a situation w here the remote device is a mobile phone and a Bluetooth headset which automatically establishes a HSP audio connection when either turned on or when returned in the range of the mobile phone.MobilePhoneSET AUTOCALL TO CONNECT TO MOBILE INCASE THERE IS CONNECTION DROPFigure 2: A sample AUTOCALL use caseConsidering the module to be the Bluetooth headset, the following commands needs to be issued so that iWRAP is configured with HFP. Please refer to HFP/HSP Application Note for further details and info of commands.Now that we have set the module to act as Bluetooth Headset, we can look into having it calling the remote device (mobile phone) automatically at regular intervals when the connection is lost. Please keep in mind that if there are multiple devices paired t o the module’s memory an inquiry is made(which is transparent to the user) and the first paired device found in this transparent inquiry is re-connected. Please also note if autocall is enabled no manual “CALL” should be issued through iWRAP by the host.In the above case, iWRAP was configured to make an Autocall connection to a specific UUID with a 7000 millisecond timeout. Please note the UUID is tied to the profile which in this case is the HFP-AG. The Audio Gateway is the mobile phone. Once the autocall command is issue, the remote device will be asked to give permission to have the module connect to it. In the event of any disconnection such as power cycle of the module and or loss of connection the module will automatically call the phone to connect as a Hands Free unit. Please see below where iWRAP was made to reset/power cycle and an automatic connection was made to the phone.To disable AUTOCALL feature simply issue “SET CONTROL AUTOCALL” and reset the module.3 Using Autopair feature in iWRAPThe Autopair command in iWRAP is a good feature to use in cases where remote device proximity can be used utilised for advertising campaigns. When this function is enabled, iWRAP automatically tries to pair with devices it finds in the inquiry using multiple PIN codes. Autopair feature can be used in conjunction with Autocall and together it is possible to make a specific function targeted to a specific application.This sets iWRAP to do an inquiry every 25 seconds with a 5 second timeout using pin codes “1234” and “0000”. Please note that the interval and timeout value are in the units of 1.28 seconds and hence are therefore multiples of that time. The command output below from iWRAP during scheduled enquiries should be as below.Please note different remote devices need to be set with different pairing mechanism. Depending on the remote device’s IO capability a particular pairi ng needs to be set. Please refer to the table which lists these capabilities of the remote device iWRAP User Guide under SET BT SSP command description.3.1 SET BT FILTERA sample use case would be to use Autopair and Autocall function to pair and connect to remote devices automatically but there could be multiple Bluetooth radios in the discovery zone. Inorder to pair and connect to only the device which is targeted to be used, the SET BT FILTER command can be invoked for such scenarios.In this case, iWRAP will only try to filter out devices which are RSSI value of -30 and above during inquiry. The filter can also be made to filter out on the COD and/or Remote device MAC address. With a combination of these parameters, automatic calling and pairing with the exact target device can be achieved. Please refer to iWRAP User guide for more detail on more parameters.4 References[1] The Bluetooth SIG, Hands-Free Profile overview, URL:/Bluetooth/Technology/Works/HFP.htm[2] The Bluetooth SIG, Headset Profile overview, URL:/Bluetooth/Technology/Works/HSP.htm5 Contact InformationSales:******************Technical support:********************/techforum/ Orders: *******************Head Office / Finland:Phone: +358-9-4355 060Fax: +358-9-4355 0660Street Address:Sinikalliontie 5A02630 ESPOOFINLANDPostal address:P.O. BOX 12002631 ESPOOFINLANDSales Office / USA:Phone: (770) 291 2181Bluegiga Technologies, Inc.3235 Satellite Blvd, Building 400, Suite 300Atlanta, GA 30096。

ARM-856、ARM-857数字式电动机保护测控装置技术说明书V1.1阿城继电器股份有限公司2007年 04月ARM-856、ARM-857数字式电动机保护测控装置技术说明书V1.1编制：张德生审核：审定：★版权所有：阿城继电器股份有限公司本资料可能被修改，请注意最新版本资料。

产品与此资料不符者，请以实际产品为准。

★技术支持：哈尔滨瑞雷电气科技发展有限责任公司(阿继电器科技中心)地址：哈尔滨市南岗区先锋路326号电话：0451-********-8002/3/4/5传真：0451-********-8001电邮：reli0451@目次1 概述 (1)1.1特点 (1)1.2主要功能 (1)1.3通信功能 (1)2 技术数据 (2)2.1额定数据 (2)2.2功耗 (2)2.3保护元件测量范围及精度 (2)2.4测量元件范围及精度 (3)2.5重量 (3)2.6绝缘性能 (3)2.7电磁兼容 (3)2.8触点性能 (4)2.9防护等级 (4)2.10机械稳定性 (4)2.11环境条件 (4)3 装置硬件 (4)3.1机箱结构 (4)3.2插件功能 (5)4 保护原理 (6)4.1 电动机起动及起动记录 (6)4.2起动过长保护 (7)4.3堵转保护 (7)4.4纵差保护 (7)4.5两段定时限过流保护 (9)4.6反时限过流保护 (9)4.7两段负序过流保护 (9)4.8两段定时限过负荷保护 (10)4.9低电压保护 (10)4.10过电压保护 (11)4.11过热保护 (11)4.12零序过流保护 (12)4.13非同步冲击保护（逆功率保护、低频保护） (12)4.14失磁保护 (13)4.15失步保护 (14)4.16非电量保护 (14)4.17PT断线告警 (14)4.18控制回路断线告警 (15)4.19零序过电压告警 (15)4.20小电流接地选线 (15)4.21TWJ异常告警 (16)4.22遥测功能 (16)4.23遥信采集 (16)4.24遥控功能 (17)4.25计算电度 (17)4.26出口逻辑编程 (17)5 装置整定 (17)5.1装置参数整定 (17)5.2装置定值整定 (18)6 整定原则 (24)7 定货须知 (25)7.1订货时应指明 (25)7.2型号参数说明 (25)附录 A (27)A.1装置动作SOE信息 (27)A.2装置开关变位信息 (27)A.3装置运行告警信息 (27)A.4装置自检信息 (28)附录 B (29)B.1ARM-856装置使用接线图 (29)B.2出口板原理图 (31)B.3操作板原理图 (32)B.4通信接口组合方式 (33)附录C 装置结构及安装说明 (34)附录D 反时限特性曲线图 (35)1 概述ARM-856、ARM-857数字式电动机保护测控装置（以下简称装置）适用于3-10kV 电压等级的中、高压同步电动机、异步电动机的保护及测控。