10. tp1608数据采集卡产品资料

YAV 8AD-16高精度采集卡技术手册V1701武汉亚为电子科技有限公司YAV 6542注意序号版本号编写人编写日期支持对象应用时间特别说明1 1.0 郑先科2014.10 YAV 8AD-16采集卡2 2.0 郑先科2015.01 YAV 8AD-16采集卡3 3.0 郑先科2017.01 YAV 8AD-16采集卡目录功能概述 (5)技术指标 (5)1.模拟信号输入 (5)2.通信总线 ......................................................................................................... 错误！未定义书签。

3.温度条件 ......................................................................................................... 错误！未定义书签。

硬件特点 (6)原理框图 (6)端子信息 (7)1.端子排列 (7)2.端子描述 (8)电气参数 (9)通信 (9)采集卡指示灯 (9)机械规格 (9)模拟量输入功能 (11)模拟量输入 (11)输入采样原理 (11)输入接线 (11)采样值计算 (12)1.无符号整型 (12)2.ADC数据类型 (12)3.模拟量值 (13)通信协议 (14)MODBUS-RTU通信协议 (14)应用实例 (17)采集卡连接 (17)发现硬件 (18)软件功能 (18)软件应用 (18)bVIEW (18)2.MODBUS RTU通信 (19)3.组态及PLC (19)注意事项及故障排除 (22)注意事项 (22)1.存储说明 (22)2.出货清单 (22)3.质保及售后 (22)4.特别说明 (22)故障排除 (23)1.无法正常采集数据 (23)2.VI文件打不开 (23)3.多卡不识别 (24)4.不显示波形 (24)5.采集速度不够 (24)6.软件弹出错误 (24)性能测试 (25)安全规范 (25)耐电压范围测试 (25)环境适应性测试 (26)文档权利及免责声明 (27)联系方式 (28)V智能体验 (29)功能概述模块有12路16位AI，电源电压为12V。

Technical DataOriginal InstructionsDySC Dynamic Voltage Sag Corrector Specifications Bulletin Number 1608Topic PageSummary of Changes2Overview2Bulletin 1608N MiniDySC Dynamic Sag Correctors3Bulletin 1608P Dynamic Sag Correctors7Bulletin 1608M MegaDySC Dynamic Sag Correctors12Additional Resources15DySC Dynamic Voltage Sag Corrector SpecificationsSummary of ChangesThis publication contains new and updated information as indicated in the following table.Topic PageAdded Product Overview2Added 1608N Product Selection3Added Bulletin 1608N Accessories6Added 1608P Product Selection7Added Bulletin 1608P Accessories11Added Bulletin 1608M Product Selection12Added Additional Resources section15OverviewThe Bulletin 1608 line of Dynamic Sag Correctors (DySC) are a unique and exclusive industrial power quality solution. Each DySC uses patented double conversion inverter technology that protects against the voltage sags and momentary outages that account for much manufacturing downtime.•Protects against short-term sags and interruptions that can impact production•Machine to facility-wide protection•Single- and three-phase products•Up to 5 seconds of ride through•Battery-free solution - eliminates requirement to swap batteries every 3…5 yearsOverviewBulletin1608N1608P1608MType MiniDySC ProDySC MegaDySCAmp Range2...6 12...50 25...50 100/110 200400 (2400)Voltage Range120…240V AC208…480V AC380…480V ACMounting DIN Rail Mount Panel Mount Panel Mount Floor MountPhase / Wiring Single Phase / L-L and L-N Three Phase/ 3-Wire and 4-WireRide Through up to 5 sBatteries Not requiredEnclosure NEMA Type 1Operating Temperature Range0…40 °C (32…104 °F)2Rockwell Automation Publication 1608-TD001B-EN-P - November 2018DySC Dynamic Voltage Sag Corrector Specifications Bulletin 1608N MiniDySC Dynamic Sag Correctors1608N Product SelectionMiniDySC Single Phase Voltage Sag Corrector - DIN Rail MountRated Current [A] Line Voltage [V] Wiring Category Runtime Cat. No.2 A 120VL-N Standard 1608N-002A120V2SL-N Extended 1608N-002A120V2E 208VL-L Standard 1608N-002A208V1SL-L Extended 1608N-002A208V1E 240VL-L Standard 1608N-002A240V1SL-L Extended 1608N-002A240V1EL-N Standard 1608N-002A240V2SL-N Extended 1608N-002A240V2E3 A 208VL-L Standard 1608N-003A208V1SL-L Extended 1608N-003A208V1E 230VL-N Standard 1608N-003A230V2SL-N Extended 1608N-003A230V2E 240VL-L Standard 1608N-003A240V1SL-L Extended 1608N-003A240V1EL-N Standard 1608N-003A240V2SL-N Extended 1608N-003A240V2E6 A 120V L-N Standard 1608N-006A120V2S L-N Extended 1608N-006A120V2EMiniDySC Single Phase Voltage Sag Corrector - Panel MountRated Current [A] Line Voltage [V] Wiring Category Runtime Cat. No.12 A 120VL-N Standard 1608N-012A120V2SL-N Standard 1608N-012A120V2S-R 208V L-L Standard 1608N-012A208V1S 220V L-N Standard 1608N-012A220V2S 230V L-N Standard 1608N-012A230V2S 240VL-L Standard 1608N-012A240V1SL-N Standard 1608N-012A240V2S25 A 120VL-N Standard 1608N-025A120V2SL-N Extended 1608N-025A120V2E208VL-L Standard 1608N-025A208V1SL-L Extended 1608N-025A208V1E220VL-N Standard 1608N-025A220V2SL-N Extended 1608N-025A220V2ERockwell Automation Publication 1608-TD001B-EN-P - November 201834Rockwell Automation Publication 1608-TD001B-EN-P - November 2018DySC Dynamic Voltage Sag Corrector Specifications1608N Specifications25 A230VL-N Standard 1608N-025A230V2S L-N Extended 1608N-025A230V2E 240VL-L Standard 1608N-025A240V1S L-L Extended 1608N-025A240V1E L-N Standard 1608N-025A240V2S L-NExtended 1608N-025A240V2E 50 A120V L-N Standard 1608N-050A120V2S L-N Extended 1608N-050A120V2E 208V L-L Standard 1608N-050A208V1S L-L Extended 1608N-050A208V1E 220VL-N Standard 1608N-050A220V2S L-N Extended 1608N-050A220V2E 230VL-N Standard 1608N-050A230V2S L-N Extended 1608N-050A230V2E 240VL-LStandard 1608N-050A240V1S L-L Extended 1608N-050A240V1E L-N Standard 1608N-050A240V2S L-NExtended1608N-050A240V2EElectrical Input/Output (Normal Mode—Static Switch)2…6 A12…50 AConnection Configuration Series-connected with load. Under normal line condition, the static switch passes utility voltage directly to the load Standard Input Voltage DySC 1 PH: 120, 208, 220, 230, 240V Voltage Range±10%Current Overload (Trip above these levels) 110% continuous, 150% @ 10 s, 200% @ 0.5 s,300% @ 10 cycles, 400% @ 3 cycles, 1000% Instantaneous —Current Overload (Static Switch) for 12A, 50A models — 200% @ 30 s, 400% @ 5 s, 600% @ 0.5 s Current Overload (Static Switch) for 25A models —200% @ 30 s, 280% @ 5 s, 450% @ 0.5 sFrequency50/60 Hz Auto Sensing Frequency Range (tracking) 45…65 HzSurge Protection Device (SPD) Built-in 3-Layers consisting of MOVs and Capacitors Efficiency 250 VA >94%, 500 VA>97%, 750 VA >96% > 98%Phase (wiring) 1 phase (L-L & L-N) Detection Voltage 88.5% of rated voltageResponse Time (typical)0.7 ms detection, 1.2 ms inverter reaction (<2 ms)MiniDySC Single Phase Voltage Sag Corrector - Panel Mount (Continued)DySC Dynamic Voltage Sag Corrector SpecificationsElectrical Output (Sag Correction Mode—Inverter)Output Voltage Matches pre-sag input voltageVoltage Regulation +/- 5% typical, +5% / -13% of nominal maxOutput Current Rated RMSCrest Factor (at rated load) 1.45Load Power factor range -0.5…+0.9, DC component <2% of rated currentVoltage Waveform (typical) Sine waveVoltage Sag Correction TimesSingle Event87% to 50% voltage remaining 5 s SR and ERSags to zero voltage remaining 50 ms or 200 ms (standard or extended run time DySCs). Based on nameplate ratings with a power factor of 0.7 Multiple EventsMax Sag Correction Time 5 s cumulative usageSequential Sag Recovery 0 s (assuming cumulative run-time available)Full Recovery Time Max 5 minMechanical Specifications2…6 A12...50 AEnclosure Ratings NEMA 1 (IP20)Cooling Forced air (500VA, 750VA) or natural convection (250VA)Forced AirAccess Lower front for connections Lower front for servicing and connections Accessibility (Wiring)Pluggable compression terminal block DIN compression terminal blockCommunications / User Interface2…6 A12...50 AIndicators 3 LEDs: Overload Trip, Normal, Alarm Normal and Alarm LEDsConnectivity************************************@1A OUTPUT OK and ALARM contacts, Form A, 24V DC at 1 AEnvironmental2…6 A12...50 AAmbient Temperature0…+50 °C (+32…+122 °F)0…+40 °C (+32…+104 °F)Storage Temperature-40°C…+75 °C (-40…+167 °F)Relative Humidity0…95% non-condensingAltitude Rated current available to 1000 m (3300 ft).De-rate output current 10% per 1000 m, from 1000…3000 m (9900 ft).Audible Noise<50 dBA at 1 mRockwell Automation Publication 1608-TD001B-EN-P - November 201856Rockwell Automation Publication 1608-TD001B-EN-P - November 2018DySC Dynamic Voltage Sag Corrector Specifications1608N Approximate DimensionsApproximate dimensions are shown in inches (mm) unless otherwise indicated. Dimensions are not to be used for manufacturing purposes.1608N Accessories2…6 Amp – DIN Rail MountRun Time Rating (VA) H x W x D in. [mm]Shipping Weight lb. [kg] Standard (SR)250 8.3 x 3.4 x 6.3 [210.8 x 86.4 x 160] 4.8 [2.18] 500 9.3 x 3.4 x 7.8 [236.2 x 86.4 x 198.1] 6.3 [2.86] 750 9.3 x 3.4 x 7.8 [236.2 x 86.4 x 198.1] 6.7 [3.04] Extended (ER)2508.3 x 5.8 x 6.3 [210.8 x 147.3 x 160] 8.0 [3.63] 500 9.3 x 5.8 x 7.8 [236.2 x 147.3 x 198.1] 9.5 [4.31] 7509.3 x 5.8 x 7.8 [236.2 x 147.3 x 198.1]10.2 [4.63]12…50 Amp – Panel MountRun Time Rating (A) H x W x D in. [mm] Shipping Weight lb. [kg] Standard (SR) 12, 25 22 x 10 x 4 [550.8 x 254 x 101.6] 18.6 [8.44] 50 21 x 19 x 4 [533.4 x 482.6 x 101.6] 34.5 [15.5] Extended (ER)25 21 x 19 x 4 [533.4 x 482.6 x 101.6] 32.5 [14.7] 5021 x 19 x 7 [533.4 x 482.6 x 177.8]51.5 [23.4]Bulletin 1608 AccessoriesTypeDescriptionCat. No. Bulletin 1608N - Single PhaseBypass, Single Phase, 25A, up tp 240V, L-L1608N-BP025A240V1 Bypass, Single Phase, 25A, up to 240V, L-N 1608N-BP025A240V2 Bypass, Single Phase, 50A, up to 240V, L-L 1608N-BP050A240V1 Bypass, Single Phase, 50A, up to 240V, L-N1608N-BP050A240V2DySC Dynamic Voltage Sag Corrector Specifications Bulletin 1608P Dynamic Sag Correctors1608P Product SelectionProDySC Three Phase Voltage Sag CorrectorRated Current [A] Line Voltage [V] Wiring Category Runtime Cat. No.25 A 208V3-Wire Standard 1608P-025A208V3S3-Wire Extended 1608P-025A208V3E4-Wire Standard 1608P-025A208V4S4-Wire Extended 1608P-025A208V4E 380V3-Wire Standard 1608P-025A380V3S3-Wire Extended 1608P-025A380V3E4-Wire Standard 1608P-025A380V4S4-Wire Extended 1608P-025A380V4E 400V3-Wire Standard 1608P-025A400V3S3-Wire Extended 1608P-025A400V3E4-Wire Standard 1608P-025A400V4S4-Wire Extended 1608P-025A400V4E 415V3-Wire Standard 1608P-025A415V3S3-Wire Extended 1608P-025A415V3E4-Wire Standard 1608P-025A415V4S4-Wire Extended 1608P-025A415V4E 480V3-Wire Standard 1608P-025A480V3S3-Wire Extended 1608P-025A480V3E4-Wire Standard 1608P-025A480V4S4-Wire Extended 1608P-025A480V4E50 A 208V3-Wire Standard 1608P-050A208V3S3-Wire Extended 1608P-050A208V3E4-Wire Standard 1608P-050A208V4S4-Wire Extended 1608P-050A208V4E380V3-Wire Standard 1608P-050A380V3S3-Wire Extended 1608P-050A380V3E4-Wire Standard 1608P-050A380V4S4-Wire Extended 1608P-050A380V4E400V3-Wire Standard 1608P-050A400V3S3-Wire Extended 1608P-050A400V3E4-Wire Standard 1608P-050A400V4S4-Wire Extended 1608P-050A400V4E415V3-Wire Standard 1608P-050A415V3S3-Wire Extended 1608P-050A415V3E4-Wire Standard 1608P-050A415V4S4-Wire Extended 1608P-050A415V4ERockwell Automation Publication 1608-TD001B-EN-P - November 20187DySC Dynamic Voltage Sag Corrector Specifications50 A (cont’d)480V 3-Wire Standard 1608P-050A480V3S 3-Wire Extended 1608P-050A480V3E 4-Wire Standard 1608P-050A480V4S 4-Wire Extended 1608P-050A480V4E100 A 208V3-Wire Standard 1608P-100A208V3S3-Wire Extended 1608P-100A208V3E4-Wire Standard 1608P-100A208V4S4-Wire Extended 1608P-100A208V4E 380V3-Wire Standard 1608P-100A380V3S3-Wire Extended 1608P-100A380V3E4-Wire Standard 1608P-100A380V4S4-Wire Extended 1608P-100A380V4E 400V3-Wire Standard 1608P-100A400V3S3-Wire Extended 1608P-100A400V3E4-Wire Standard 1608P-100A400V4S4-Wire Extended 1608P-100A400V4E 415V3-Wire Standard 1608P-100A415V3S3-Wire Extended 1608P-100A415V3E4-Wire Standard 1608P-100A415V4S4-Wire Extended 1608P-100A415V4E 480V3-Wire Standard 1608P-100A480V3S3-Wire Extended 1608P-100A480V3E4-Wire Standard 1608P-100A480V4S4-Wire Extended 1608P-100A480V4E110 A 480V 3-Wire Standard 1608P-110A480V3S3-Wire Extended 1608P-110A480V3E3-Wire Extended 1608P-110A480V3E-HC 4-Wire Standard 1608P-110A480V4S4-Wire Extended 1608P-110A480V4E4-Wire Extended 1608P-110A480V4E-HCProDySC Three Phase Voltage Sag Corrector (Continued)Rated Current [A] Line Voltage [V] Wiring Category Runtime Cat. No.8Rockwell Automation Publication 1608-TD001B-EN-P - November 2018Rockwell Automation Publication 1608-TD001B-EN-P - November 20189DySC Dynamic Voltage Sag Corrector Specifications1608P Specifications200 A208V 3-Wire Standard 1608P-200A208V3S 4-Wire Standard 1608P-200A208V4S 380V 3-Wire Standard 1608P-200A380V3S 4-Wire Standard 1608P-200A380V4S 400V3-Wire Standard 1608P-200A400V3S 4-Wire Standard 1608P-200A400V4S 415V3-Wire Standard 1608P-200A415V3S 4-Wire Standard 1608P-200A415V4S 480V3-Wire Standard 1608P-200A480V3S 4-WireStandard 1608P-200A480V4S 3-Wire Standard 1608P-200A480V3S-HC (1)4-WireStandard1608P-200A480V4S-HC (1)(1)1608P-xx…-HC 200 A devices provide 78 ms ride-through time at zero volts, and includes an integrated three breaker bypass.Electrical Input/Output (Normal Mode—Static Switch)25/50 A110/110A200 A200 A HCConnection Configuration Series-connected with load. Under normal line condition, the static switch passes utility voltage directly to the load Standard Input Voltage DySC 3 PH: 208, 380, 400, 415, 480V 480VVoltage Range ±10% Current Overload 150% @ 30 s,400% @ 5 s,600% @ 0.5 s 200% @ 30 s,400% @ 5 s,600% @ 0.5 s150% @ 30 s 400% @ 5 s 600% @ 0.5 sFrequency50/60 Hz Auto Sensing Frequency Range (tracking) 45…65 Hz48…62 HzSurge Protection Device (SPD) Built-in 3-Layers consisting of MOVs and Capacitors Efficiency > 99% @ 480V Phase (wiring) 3 PH (3-Wire and 4-Wire)Detection Voltage 88.5% of rated voltageResponse Time (typical)0.7 ms detection, 1.2 ms inverter reaction (<2 ms)Electrical Output (Sag Correction Mode—Inverter)25/50 A 110/110A200 A200 A HCOutput Voltage Pre-sag rms voltageVoltage Regulation +/- 5% typical, +5% / -13% of nominal maxOutput Current Rated RMS, Not rated for DC loads: max allowable 2% DC loading.Crest Factor (at rated load) 1.45LoadPower factor range -0.5…+0.9, DC component <2% of rated current Voltage Waveform (typical)Sine waveProDySC Three Phase Voltage Sag Corrector (Continued)Rated Current [A]Line Voltage [V] Wiring Category Runtime Cat. No.DySC Dynamic Voltage Sag Corrector SpecificationsVoltage Sag Correction Times25/50 A 110/110A 200 A200 A HC Single Event87…50% voltage remaining 5 sAll three phases to zero voltage remaining 50 ms or 200 ms (SR or ER).Based on load at nameplateratings with a power factor of 0.733...50 ms or 133...200 ms(SR or ER). Based on load atnameplate ratings with a powerfactor of 0.750 ms based on nameplateratings with a power factor of 0.778 ms based on nameplateratings with a power factor of 0.7Multiple EventsMax Sag Correction Time 5 s cumulative usageSequential Sag Recovery 0 s (assuming cumulative run-time available)Full Recovery Time Max 5 minMechanical Specifications25/50 A 110/110A 200 A200 A HC Enclosure Ratings NEMA 1 (IP20)Cooling Filtered forced airAccess Front for servicing and connectionsAccessibility (Wiring)Screw terminal blocks Mechanical lugsCommunications / User Interface25/50 A 110/110A 200 A200 A HC Indicators LCD ScreenConnectivity SAG EVENT, OUTPUT OK, and ALARM contacts, Form A, 24V DC at 1 AEnvironmental25/50 A 110/110A 200 A200 A HC Ambient Temperature0…+40 °C (+32…+104 °F)Storage Temperature-40°C…+75°C (-40…+167 °F)Relative Humidity0…95% non-condensingAltitude Rated current available to 1000 m (3300 ft). De-rate output current 10% per 1000 m, from 1000…3000 m (9900 ft). Audible Noise< 55 dBA at 1 m<67 dBA at 1 m10Rockwell Automation Publication 1608-TD001B-EN-P - November 2018Rockwell Automation Publication 1608-TD001B-EN-P - November 201811DySC Dynamic Voltage Sag Corrector Specifications1608P Approximate DimensionsApproximate dimensions are shown in inches (mm) unless otherwise indicated. Dimensions are not to be used for manufacturing purposes.1608P Accessories25…50 AmpRun Time Rating (A) H x W x D in. [mm] Shipping Weight lb. [kg] Standard (SR) 25 32 x 26 x 14 [813 x 660 x 356] 277 [126] 50 38 x 38 x 14 [965 x 965 x 356] 330 [150] Extended (ER)25 32 x 26 x 14 [813 x 660 x 356] 307 [140] 5038 x 38 x 14 [965 x 965 x 356]398 [181]100/110 AmpRun Time Wiring Type H x W x D in. [mm]Shipping Weight lb. [kg] Standard (SR)3-Wire 57.1 x 29 x 24.7 [1449 x 737 x 627]787 [357] 4-Wire 772 [351] Extended (ER) 3-Wire 77.1 x 29 x 24.7[1957 x 737 x 627]937 [426] 4-Wire922 [419]200 AmpWiring Type H x W x D in. [mm]Shipping Weight lb. [kg] 3-Wire 78.6 x 42.4 x 34.6 [1983 x 1076 x 878]1,470 [667] 4-Wire1,408 [639]Bulletin 1608 AccessoriesTypeDescriptionCat. No. Bulletin 1608P - Three PhaseBypass, Three Phase, 25A, up to 480V1608P-BP025A480V3 Bypass, Three Phase, 50A, up to 480V 1608P-BP050A480V3 Bypass, Three Phase, 110A, up to 480V1608P-BP110A480V312Rockwell Automation Publication 1608-TD001B-EN-P - November 2018DySC Dynamic Voltage Sag Corrector SpecificationsBulletin 1608M MegaDySC Dynamic Sag Correctors1608M Product SelectionContact your local Rockwell Automation sales office or Allen-Bradley distributor for MegaDySC systems over 400A.T o ensure successful integration, the MegaDySC unit requires commissioning from factory authorized personnel.Rated Current [A]Line Voltage [V]Wiring Category Runtime Cat. No. 400A380V3-WireStandard 1608M-400A380V3S Extended 1608M-400A380V3E 4-Wire Standard 1608M-400A380V4S Extended 1608M-400A380V4E 400V3-WireStandard 1608M-400A400V3S Extended 1608M-400A400V3E 4-Wire Standard 1608M-400A400V4S Extended 1608M-400A400V4E 415V3-WireStandard 1608M-400A415V3S Extended 1608M-400A415V3E 4-WireStandard 1608M-400A415V4S Extended 1608M-400A415V4E 460V3-WireStandard 1608M-400A460V3S Extended 1608M-400A460V3E 4-Wire Standard 1608M-400A460V4S Extended 1608M-400A460V4E 480V3-WireStandard 1608M-400A480V3S Extended 1608M-400A480V3E 4-WireStandard 1608M-400A480V4S Extended1608M-400A480V4EDySC Dynamic Voltage Sag Corrector Specifications Bulletin 1608M SpecificationsElectrical Input/Output (Normal Mode—Static Switch)Connection Configuration Series-connected with load. Under normal line condition, the static switch passes utility voltage directly to the loadStandard Input Voltage DySC 3 PH: 380, 400, 415, 480VVoltage Range ±10%Static Bypass Current100% rated rms continuous, 150…400% @ 5 s, 400…600% @ 0.5 s, 600% @ 0.1 s Frequency 50/60 Hz Auto SensingFrequency Range (tracking) 45…65 HzSurge Protection Device (SPD) Output SPD, 80kA/modeEfficiency >99%Phase (wiring) 3 phases + Ground (3-wire models) or 3 phases + Neutral + Ground (4-wire models) Detection Voltage 88.5% of rated voltageResponse Time (typical) 0.7 ms detection, 1.2 ms inverter reaction (2 ms)Electrical Output (Sag Correction Mode—Inverter)Output Voltage Pre-sag rms voltageVoltage Regulation +/- 5% typical, +5% / -13% of nominal maxOutput Current Rated RMSNot rated for DC loads; max. allowable 2% DC loadingCrest Factor (at rated load) 1.45Load Power factor range -0.5…+0.9, DC component <2% of rated current Voltage Waveform (typical) Sine waveVoltage Sag Correction TimesSingle Event87…50% voltage remaining 5 s SR and ERAll three phases to zero voltage remaining 50 ms or 200 ms (standard or extended run time DySCs). Based on nameplate ratings with a power factor of 0.7Multiple EventsMax Sag Correction Time 5 s cumulative usageSequential Sag Recovery 0 s (assuming cumulative run-time available)Full Recovery Time Max 5 minMechanical SpecificationsEnclosure Ratings NEMA 1 (IP20)Cooling Filtered forced airCable Entry Top or bottom of switchboardAccess Front for servicing and connectionsAccessibility (Wiring)Mechanical LugsRockwell Automation Publication 1608-TD001B-EN-P - November 20181314Rockwell Automation Publication 1608-TD001B-EN-P - November 2018DySC Dynamic Voltage Sag Corrector Specifications1608M Approximate DimensionsApproximate dimensions are shown in inches (mm) unless otherwise indicated. Dimensions are not to be used for manufacturing purposes.Communications / User InterfaceIndicators LCD screenConnectivitySAG EVENT, OUTPUT OK, and ALARM contacts, Form A, 24V DC at 1 AEnvironmentalAmbient Temperature 0…+40°C (32…+104 °F)Storage Temperature -40°C…+75°C (-40…+167 °F)Relative Humidity 0…95% non-condensingAltitude Rated current available to 1000 m (3300 ft). De-rate output current 10% per 1000 m, from 1000…3000 m (9900 ft).Audible Noise<70dBA at 1 mRated Current [A]Run Time Wiring Type H x W x D in. [mm]Shipping Weight lb. [kg] 400Standard3-Wire 94 X 69.3 X 33.1 [2388 X 1759 X 840] 2867 lb [1300kg] 4-Wire 2831 lb [1284 kg] Extended 3-Wire 94 X 87.3 X 33.1 [2388 X 2216 X 840] 3731 lb [1692 kg] 4-Wire 3695 lb [1676 kg] 800Standard3-Wire 103 X 128.5 X 51.1 [2614 X 3264 X 1297]7800 lb [3538kg] 4-Wire 7800 lb [3538kg] Extended 3-Wire 103 X 164.5 X 51.1 [2614 X 4178 X 1297] 8632 lb [3915 kg] 4-Wire 8632 lb [3915 kg] 1200Standard3-Wire 103 X 165.5 X 51.1 [2614 X 4204 X 1297] 10,350 lb [1300kg] 4-Wire 10,350 lb [1300kg] Extended 3-Wire 103 X 219.5 X 51.1 [2614 X 5575 X 1297] 11,598 lb [1692 kg] 4-Wire 11,598 lb [1692 kg] 1600Standard3-Wire 103 X 202.5 X 51.1 [2614 X 5144 X 1297] 13,300 lb [6033kg] 4-Wire 13,300 lb [6033kg] Extended 3-Wire 103 X 274.5 X 51.1 [2614 X 6972 X 1297] 14,964 lb [6788 kg] 4-Wire 14,964 lb [6788 kg] 2000Standard3-Wire 103 X 239.5 X 51.1 [2614 X 6083 X 1297] 16,250 lb [7371kg] 4-Wire 16,250 lb [7371kg] Extended 3-Wire 103 X 329.6 X 51.1 [2614 X 8372 X 1297] 18,330 lb [8314 kg] 4-Wire 18,330 lb [8314 kg] 2400Standard3-Wire 103 X 276.5 X 51.1 [2614 X 7023 X 1297] 18,800 lb [8528kg] 4-Wire 18,800 lb [8528kg] Extended3-Wire 103 X 384.6 X 51.1 [2614 X 9769 X 1297]21,296 lb [9660 kg] 4-Wire21,296 lb [9660 kg]DySC Dynamic Voltage Sag Corrector Specifications Additional ResourcesThese documents contain additional information concerning related products from Rockwell Automation.Resource DescriptionIndustrial Automation Wiring and Grounding Guidelines, publication 1770-4.1Provides general guidelines for installing a Rockwell Automation industrial system. Product Certifications website, rok.auto/certifications.Provides declarations of conformity, certificates, and other certification details.Y ou can view or download publications at /global/literature-library/ overview.page.Rockwell Automation Publication 1608-TD001B-EN-P - November 201815Allen-Bradley, LISTEN. THINK. SOLVE., Rockwell Automation, and Rockwell Software are trademarks of Rockwell Automation, Inc.Trademarks not belonging to Rockwell Automation are property of their respective companies.Publication 1608-TD001B-EN-P - November 2018Supersedes Publication 1608-TD001A-EN-P - July 2014Copyright © 2018 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.Rockwell Automation SupportUse the following resources to access support information.Documentation FeedbackY our comments will help us serve your documentation needs better. If you have any suggestions on how to improve this document, complete the How Are W e Doing? form at /idc/groups/literature/documents/du/ra-du002_-en-e.pdf .Technical Support CenterKnowledgebase Articles, How-to Videos, FAQs, Chat,User Forums, and Product Notification /knowledgebaseLocal Technical Support Phone Numbers Locate the phone number for your country./global/support/get-support-now.pageDirect Dial Codes Find the Direct Dial Code for your product. 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一、概述TM1628是一种带键盘扫描接口的LED（发光二极管显示器）驱动控制专用IC,内部集成有MCU 数字接口、数据锁存器、LED 驱动、键盘扫描等电路。

本产品质量可靠、稳定性好、抗干扰能力强。

主要适用于家电设备(智能热水器、微波炉、洗衣机、空调、电磁炉)、机顶盒、电子称、智能电表等数码管或LED显示设备。

二、特性说明•采用CMOS工艺•多种显示模式（10 段×7 位～ 13段×4 位）••••••••三、四、管脚功能定义：五、指令说明：指令用来设置显示模式和LED驱动器的状态。

在STB如果在指令或数据传输时STB被置为高电平,串行通讯被初始化,并且正在传送的指令或数据无效（之前传送7位10(3)显示控制命令设置：该指令用来设置显示的开关以及显示亮度调节。

共有8级辉度可供选择进行调节。

略,六、 显示寄存器地址：该寄存器存储通过串行接口接收从外部器件传送到TM1628的数据,最多有效地址从00H-0DH 共14字节单元,分别与芯片SEG 和GRID 管脚对应,具体分配如图(2)：写, （图（7）图7给出共阴极数码管的连接示意图,如果让该数码管显示“0”,只需要向00H （GRID1）地址中从低位开2、驱动共阳极数码管：、该芯片最大支持的键扫矩阵为10×2bit,如下所示：图（3）键扫数据储存地址如下所示,先发读按键命令后,开始读取5字节的按键数据BYTE1—BYTE5,读数据从低位开始输出,其中B7和B6位为无效位固定输出为0。

芯片K和KS引脚对应的按键按下时,相对应的字节内的BIT位为1。

▲注意：1、TM1628最多可以读5个字节,不允许多读。

按下时,九、（1需要27位10.....图（10）如图（10）可知,芯片内部按键扫描原理如下：芯片从SEG1/KS1开始逐渐扫描到SEG10/KS10结束,并且SEG1/KS1-SEG8/KS8在一个周期内完成,SEG9/KS9-SEG10/KS10在下一个周期内完成。

PCM-6661 250Ks/S单端32通道/差分16通道轮询模拟量输入4通道模拟量输出24通道可编程数字量IO3通道计数器多功能数据采集卡用户手册版本号：Q7-32-00修订日期:2020-01-05国控精仪（北京）科技有限公司2020年版权所有本软件文档及相关套件均属国控精仪(北京)科技有限公司所有，包含专利信息，其知识产权受国家法律保护，除非本公司书面授权许可，其他公司、组织不得非法使用和拷贝。

为提高产品的性能、可靠性，本文档中的信息如有完善或修改，恕不另行通知，客户可从公司网站下载或致电我们通过电子邮件索取，制造商无需作成承诺和承担责任。

客户使用产品和软件文档进行设备调试和生产时，应进行可靠性、功能性等全面测试，方可进行整体设备的运行或交付。

我们提供7*24电话技术支持服务，及时解答客户问题。

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国控精仪公司信息网址: 英文 中文 销售服务: ***************电话: 400 9936 400 或************传真: ************地址: 北京市海淀区安宁庄东路18号9号楼请将您下列的信息通过邮件或传真发送给我们目录1概述...................................................................................................................................... - 1 -1.1产品特性.................................................................................................................. - 1 -1.2产品应用.................................................................................................................. - 1 -1.3产品详细指标.......................................................................................................... - 2 -1.3.1模拟量输入(AI) ........................................................................................... - 2 -1.3.2模拟量输出(AO) ....................................................................................... - 4 -1.3.3通用数字I O ................................................................................................. - 5 -1.3.4通用定时计数器 ......................................................................................... - 5 -1.3.5模拟量触发（A.T rig） ............................................................................... - 5 -1.3.6数字量触发（D.T rig） ............................................................................... - 6 -1.3.7稳定时间...................................................................................................... - 6 -1.3.8物理特征...................................................................................................... - 6 -1.3.9产品功耗(典型值) ..................................................................................... - 6 -1.3.10工作环境...................................................................................................... - 6 -1.3.11存储环境...................................................................................................... - 6 -1.4软件支持.................................................................................................................. - 7 -2设备安装.............................................................................................................................. - 8 -2.1产品开箱.................................................................................................................. - 8 -2.2软件安装.................................................................................................................. - 8 -2.3产品布局图.............................................................................................................. - 9 -2.4产品硬件配置.......................................................................................................... - 9 -3信号连接说明.................................................................................................................... - 10 -3.1连接器管脚分配.................................................................................................... - 10 -3.2模拟量输入的信号连接方式................................................................................ - 12 -3.2.1信号源类型................................................................................................ - 12 -3.2.2单端连接方式............................................................................................ - 12 -3.2.3差分连接方式............................................................................................ - 13 -4产品功能详细介绍............................................................................................................ - 15 -4.1AI转换 .................................................................................................................. - 15 -4.1.1AI数据获取模式....................................................................................... - 15 -4.1.2AI 数据格式.............................................................................................. - 16 -4.1.3时钟源相关................................................................................................ - 17 -4.1.4AI启动方式............................................................................................... - 17 -4.1.5触发功能.................................................................................................... - 18 -4.1.6DMA数据传输功能 ................................................................................. - 19 -4.2AO转换................................................................................................................. - 19 -4.2.1AO数据输出模式..................................................................................... - 20 -4.2.2AO数据格式............................................................................................. - 20 -4.2.3AO启动方式............................................................................................. - 20 -4.2.4AO停止方式............................................................................................. - 21 -4.3数字量输入、输出................................................................................................ - 21 -4.3.1数字量输入、输出控制............................................................................ - 21 -4.3.2电气特性.................................................................................................... - 22 -4.4计数器.................................................................................................................... - 22 -4.4.1方式0：计数模式0；.............................................................................. - 22 -4.4.2方式1：计数模式1；.............................................................................. - 23 -4.4.3方式2：频率周期模式0；...................................................................... - 23 -4.4.4方式3：频率周期模式1；...................................................................... - 23 -4.4.5方式4：频率周期模式2；...................................................................... - 24 -4.4.6方式5：脉冲发生模式0；...................................................................... - 24 -4.4.7方式6：脉冲发生模式1；...................................................................... - 25 -4.4.8方式7：脉冲发生模式2；...................................................................... - 25 -5注意事项、产品校准........................................................................................................ - 26 -6产品检测、校准....................................................................................... 错误!未定义书签。

目录一、概述 (1)二、功能特点 (2)三、技术指标 (3)3.1.数据采样口 (3)3.2通讯接口 (3)3.3机械特性 (4)3.4电源要求 (4)3.5环境 (4)3.6认证资料 (4)四．安装与接线 (5)4.1模块安装 (5)五、通讯设置及通讯协议 (8)5.1ADVANTECH通信协议 (8)5.2MODBUS通信协议 (11)六、软件驱动的安装 (12)七、系统软件使用说明 (13)7.1系统概述 (13)7.2运行环境 (13)7.3软件安装 (13)7.4界面介绍 (14)7.5主菜单栏 (14)7.6工具栏 (14)7.7显示主窗口 (14)7.8建立设备和通讯设置 (15)7.9历史数据 (20)7.10系统退出 (23)八、故障分析与排除 (24)一、概述TP1608采集卡采用工业级双485和标准TPYE-C接口，1608外观时尚简约、小巧便携，可导轨安装。

主要应用于冶金、石油、化工、建材、造纸、食品、制药、热处理和水处理等各种工业现场。

多种功能测试(电压、电流、温度、湿度、压力、振动、频率、流量、液位）轻松实现数据采集、监控、记录、控制等。

本产品与电脑通讯配合上位机软件显示。

模块可以接收多种类型的电流、电压和电阻信号，实现温度、湿度、压力、液位、流量、成分以及力、力矩、位移等物理量的显示、记录、越限监控、报表生成、数据通讯、信号变送以及流量累计等功能。

二、功能特点●本产品显示信息量大、界面友好、操作简单，以下是主要功能及特点：采集卡内部嵌入20种类型信号采集，一个模块即可解决市面上大部分模拟信号采样，类型自由切换，只需一个采集卡就可完成温度、湿度、压力、流量、电压、电流、振动、光照等信号的采集工作●双485口，标准TPYE-C接口，多种协议选择，更好的为您所用，采集卡支持三种协议：modbus-rtu协议、研华Adam4017协议、主动上报协议●完美的隔离保护，更放心、安全的数据采集;电源与通道之间耐压3000VAC(50/60HZ)，通道与通道之间400VAC(50/60HZ)，380V交直流带电测试，无需做绝缘保护，采集口最大承受电压±15V。

E M C C o m p o n e n t sJuly 2016片式磁珠电源线用MPZ系列MPZ1608型MPZ16081608[0603 inch]** 表示尺寸代码。

使用注意事项在使用本产品前，请务必随附采购规格书。

安全注意事项使用本产品时，请注意安全事项。

保存时间为12个月以内，保存条件（温度5～40°C 、湿度10～75%RH 以下），需充分注意。

若超过保存时间，端子电极的可焊性将可能老化。

请勿在气体腐蚀环境（盐、酸、碱等）下使用和保管。

在实施焊接前，请务必进行预热。

预热温度与焊接温度及芯片温度的温度差要在150°C 以内。

安装后的焊接修正应在规格书规定的条件范围内。

若加热过度可能导致短路、性能降低、寿命减少。

将安装了芯片的印刷电路组装到装置时，请注意不要因印刷电路整体变形或紧固部等局部变形而给芯片施加剩余应力。

装置会因通电而自我发热（温度上升），因此在热设计方面需留有充分余地。

非磁屏蔽型在基板设计时需注意配置线圈。

受到电磁干扰可能会导致误动作。

由于人体所带的静电会传到接地线上，因此请使用防静电腕带。

请勿将本产品靠近磁铁或带有磁力的物体。

请在采购规格书规定的范围内使用。

本产品目录中记载的产品是指在通用标准用途意义上使用于一般电子设备（AV 设备，通信设备，家电产品，娱乐设备，计算机设备，个人设备，办公设备，计测设备，工业机器人），并且该一般电子设备要在通常的操作和使用方法下使用。

对于需要高度安全性和可靠性的，或者设备的故障，误动作，运转不良可能会给人的生命，身体及财产等造成损害，以及有可能产生莫大社会影响的以下用途（以下称‘ 特定用途’）中的适用性，性能发挥，品质，本公司不予保证。

客户预定在本产品目录的范围，条件之外，或者在特定用途中使用时，请事先咨询本公司相关部门。

本公司会配合客户需求，一起协商不同于本产品目录中所记载的使用用途。

(1) 航空，航天设备(2) 运输设备（汽车，电车，船舶等）(3) 医疗设备(4) 发电控制设备(5) 核动力相关设备 (6) 海底设备(7) 交通工具控制设备(8) 公共性的高度信息处理设备(9) 军用设备(10) 电热用品，燃烧设备(11) 防灾防盗设备(12) 各种安全装置(13) 其他被认定为特定用途的用途此外，对使用本产品目录中所记载产品的设备进行设计时，请确保符合该设备的使用用途及状态的保护回路和装置，并设置备用回路等。

数据采集卡多功能数据采集卡是一种应用极为广泛的模拟量测量设备，其基本任务是将信号送入计算机或相应的信号处理系统，然后根据不同的需要进行相应的计算。

它在将模拟量采集、转换成数字量后，再经计算机处理得出所需的数据。

同时，还可以用计算机将得到的数据进行存储、显示或打印，以实现对某些物理量的监视，其中一部分数据还可以被用做生产过程中的反馈控制量。

多功能数据采集卡性能的好坏，主要取决于它的精度和速度。

数据采集越及时，工作效率就越高。

在保证精度的条件下，应用尽可能高的采样速度，以满足实时采集、实时处理和实时控制对速度的要求。

1 接口通信协议从微型计算机的诞生到现在，微机总线技术也在不断发展，而且随着应用技术发展的需要，不断有新的总线技术研制出来，同时在竞争的市场中，不同总线还会拥有自己特定的应用领域。

目前除了大家熟悉的，较为流行的PCI、AGP、IEEE1394、USB等总线外，又出现了EV6总线、PCI-X局部总线、NGIO总线等。

其常用的总线结构有如下几种类型:ISA总线、MCA总线、EISA总线、VL局部总线、PCI局部总线等。

（1）ISA总线(AT总线)：ISA(Industry Standard Architecture)总线是IBM公司八十年代为IBM-PC/AT机设计的，又称AT总线，用于AT机主板和各接口电路板的连接。

ISA总线是16位数据线、24位地址线，工作频率为8MHz，数据传输率为8MB/S，允许多个CPU共享系统资源，从而大大改善了CPU处理性能。

由于其兼容性好，它在上个世纪80年代成为最广泛采用的系统总线，不过由于ISA标准的限制，使得对系统总线上的I/0、存储器的访问没有大的改进，所以它的弱点也是显而易见的，比如传输速率过低、CPU占用率高、占用硬件中断资源等，从而在强大的CPU处理能力与低性能的系统总线间形成了一个瓶颈。

（2）MCA总线：MCA（Micro Channel Architecture 即微通道总线结构）总线是IBM公司专为其PS\\2系统（使用各种Intel处理器芯片的个人计算机系统）开发的总线结构，该总线的总线宽度是32位，最高总线频率为10MHz。

具体来说，这种设计分两部分：数据采集部分和数据处理部分。

数据采集就是利用LabVIEW的驱动程序对数据采集卡进行设置并使其按设置工作，进行数据的采集；数据处理则是将采集到的数据送至计算机进行运算处理等等。

对于初学者，可先从第二部分开始。

将实际的数据采集先用LabVIEW自带的数组或者波形函数来代替，着重设计数据处理的软件部分。

这部分可以包括：滤波、数据存储、数据读取、波形显示、波形分析处理（如傅立叶变换、谱密度计算等等）。

这些在LabVIEW中都有集成的函数模块，也就是VI，只要对每个VI的输入输出设置正确就好。

当软件部分设计完成后，再设计数据采集部分。

这是软硬件结合的部分。

既要对所用的数据采集卡的参数和工作方式有充分的正确的认识，又要对如果利用LabVIEW驱动采集卡掌握。

一般来说采集卡都带有LabVIEW的驱动，只要参看数据采集卡的使用说明（PDF），就可以掌握了。

选择好数据采集卡后，将该采集卡的驱动光盘放入计算机并按其指示进行安装，则其驱动模块将装入原LabVIEW软件中，然后和第一步的软件编程一样，对驱动所要用的VI的输入输出参数设置正确，编写程序即可。

当两部都做完后，将整个采集系统运行一下，对于设计中存在的疏漏再进行修改。

推荐使用《LadVIEW8.20程序设计从入门到精通(附光盘)》作者:陈锡鸿这本书不错，深入浅出，初学必备~~数据采集(DAQ)基础知识现今，在实验室研究、测试和测量以及工业自动化领域中，绝大多数科研人员和工程师使用配有PCI、PXI/CompactPCI、PCMCIA、USB、IEEE1394、ISA、并行或串行接口的基于PC的数据采集系统。

许多应用使用插入式设备采集数据并把数据直接传送到计算机内存中，而在一些其它应用中数据采集硬件与PC分离，通过并行或串行接口和PC相连。

从基于PC的数据采集系统中获取适当的结果取决于图示一中的各项组成部分：•PC•传感器•信号调理•数据采集硬件•软件本文详细介绍了数据采集系统的各个组成部分，并解释各个部分最重要的准则。

MCL1608V2-101-R MCL1608V2-3R3-R MCL1608V2-6R8-R MCL1608V2-8R2-RMCL1608V2Multilayer chip inductorProduct features• 0603 (1608 metric) package • High self resonant frequency (SRF)•Multilayer monolithic construction yields high reliability• Suitable for wave and reflow soldering • Inductance range from 1.0 nH to 470 nH •Moisture sensitivity level (MSL): 1Applications• Industrial connectivity (IoT)•Wireless communiations• Bluetooth • WiFi •Antenna• Machine-to-machine (M2M) • Mobile phones •Wearable devices • Wireless LAN• Computing/gaming consoles • Broadband components •RF transciever modulesEnvironmental data•Operating temperature range: -40 °C to +85 °C (ambient plus self-temperature rise)•Solder reflow temperature:J-STD-020 (latest revision) compliantPb HALOGENHF FREE2Technical Data 10927Effective June 2019MCL1608V2Multilayer chip inductor/electronicsProduct specificationsPart numberOCL (nH) ±5%I Rated(mA) maximumDCR (Ω)maximum @ +25°CSRF(MHz) minimumQmimimumTest frequency (MHz)Test voltage (mV)MCL1608V2-1R0-R 1.0 ±0.3nH 5000.0510000810050MCL1608V2-1R2-R 1.2 ±0.3nH 5000.0510000810050MCL1608V2-1R5-R 1.5 ±0.3nH 5000.106000810050MCL1608V2-1R8-R 1.8 ±0.3nH 5000.106000810050MCL1608V2-2R2-R 2.2 ±0.3nH 5000.106000810050MCL1608V2-2R7-R 2.7 ±0.3nH 5000.1260001010050MCL1608V2-3R3-R 3.3± 0.3nH 5000.1560001010050MCL1608V2-3R9-R 3.9 ±0.3nH 5000.1660001010050MCL1608V2-4R7-R 4.7 ±0.3nH 5000.2060001010050MCL1608V2-5R6-R 5.6 ±0.3nH 5000.2550001010050MCL1608V2-6R8-R 6.85000.3050001010050MCL1608V2-8R2-R 8.25000.3545001010050MCL1608V2-100-R 10.03000.4035001210050MCL1608V2-120-R 12.03000.4530001210050MCL1608V2-150-R 15.03000.5023001210050MCL1608V2-180-R 18.03000.5522001210050MCL1608V2-220-R 22.03000.6020001210050MCL1608V2-270-R 27.03000.6517001210050MCL1608V2-330-R 33.03000.7015001210050MCL1608V2-390-R 39.03000.7014001210050MCL1608V2-470-R 47.03000.7012001210050MCL1608V2-560-R 56.03000.7511001210050MCL1608V2-680-R 68.03000.859001210050MCL1608V2-820-R 82.0300 1.00800810050MCL1608V2-101-R 100300 1.20700810050MCL1608V2-121-R 120200 1.40600810050MCL1608V2-151-R 150200 1.60500810050MCL1608V2-181-R 180200 1.90400810050MCL1608V2-221-R 220200 2.40350810050MCL1608V2-271-R 270150 2.60350810050MCL1608V2-331-R 330150 2.80350810050MCL1608V2-391-R 390150 3.20300810050MCL1608V2-431-R 430150 3.4028085050MCL1608V2-471-R4701503.60250850501. Test frequency and voltage are for OCL and Q at +25 °C2. Resistance to soldering heat: +260 ±5 °C for 10 ± 1 second3. At low temperature resistance (-40 ±2°C) the inductance change is within ±10% and the Q within ±20%4. At high temperature resistance (+85 ±2°C) the inductance change is within ±10% and the Q within ±20%5 At high temperature load (+85 ±2°C) the inductance change is within ±10% and the Q within ±20%6. Rated I: When rated I is applied to the product, self-temperature rise will be 40 °C or less. 7. Part Number Definition: MCL1608V2-xxx-R MCL1608 = Product code and size V2= Version indicatorxxx= inductance value in nH, R= decimal point,If no R is present then last character equals number of zeros -R suffix = RoHS compliant3Technical Data 10927Effective June 2019MCL1608V2Multilayer chip inductor /electronics No part markingAll soldering surfaces to be coplanar within 0.1 millimeters Tolerances are ±0.2 millimeters unless stated otherwisePad layout tolerances are ±0.1 millimeters unless stated otherwise Do not route traces or vias underneath the inductorDimensions (mm)SchematicPart Number L W T a A B CMCL1608V2-xxx-R 1.6 ±0.200.80 ±0.200.80 ±0.200.30 ±0.20 1.2 ±0.100.9 ±0.1004 ±0.10Packaging information (mm)Drawing not to scaleSupplied in tape and reel packaging, 4000 parts per 7” diameter reelW ±0.38.00F±0.05 3.50E1±0.10 1.75E2 Min 6.25P0±0.10 4.00P1±0.2 4.00P2±0.1 2.001.50D0+0.10/-0A0 1.1±0.20B0 1.9±0.20T Max 1.10T1 Maxna4MCL1608V2Multilayer chip inductor/electronicsFrequency MHzQ vs frequency100100001000Frequency MHz5Technical Data 10927Effective June 2019MCL1608V2Multilayer chip inductor /electronics Solder reflow profileTable 1 - Standard SnPb solder (T c )Package ThicknessVolume mm3 <350Volume mm3 ≥350<2.5 mm)235 °C 220 °C ≥2.5 mm220 °C220 °CTable 2 - Lead (Pb) free solder (T c )Package thicknessVolume mm 3 <350Volume mm 3350 - 2000Volume mm 3 >2000<1.6 mm 260 °C 260 °C 260 °C 1.6 – 2.5 mm 260 °C 250 °C 245 °C >2.5 mm250 °C245 °C245 °CT e m p e r a t u r eT LT PReference J-STD-020Profile featureStandard SnPb solderLead (Pb) free solderPreheat and soak • Temperature min. (T smin )100 °C 150 °C • Temperature max. (T smax )150 °C 200 °C • Time (T smin to T smax ) (t s )60-120 seconds 60-120 seconds Average ramp up rate T smax to T p 3 °C/ second max. 3 °C/ second max.Liquidous temperature (T l ) Time at liquidous (t L )183 °C60-150 seconds 217 °C60-150 seconds Peak package body temperature (T P )*Table 1Table 2Time (t p )** within 5 °C of the specified classification temperature (T c )10 seconds**10 seconds**Average ramp-down rate (T p to T smax ) 6 °C/ second max. 6 °C/ second max.Time 25 °C to peak temperature6 minutes max.8 minutes max.* Tolerance for peak profile temperature (T p ) is defined as a supplier minimum and a user maximum.** Tolerance for time at peak profile temperature (t p ) is defined as a supplier minimum and a user maximum.EatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/electronics © 2019 EatonAll Rights Reserved Printed in USAPublication No. 10927 BU-MC19059June 2019MCL1608V2Multilayer chip inductorTechnical Data 10927Effective June 2019Life Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express writtenapproval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin.T e m p e r a t u r eTimeT T T T Wave solder profileReference EN 61760-1:2006Profile featureStandard SnPb solderLead (Pb) free solderPreheat • Temperature min. (T smin )100 °C 100 °C • Temperature typ. (T styp )120 °C 120 °C • Temperature max. (T smax )130 °C 130 °C • Time (T smin to T smax ) (t s )70 seconds 70 seconds D preheat to max Temperature150 °C max.150 °C max.Peak temperature (T P )*235 °C – 260 °C 250 °C – 260 °C Time at peak temperature (t p )10 seconds max5 seconds max each wave 10 seconds max5 seconds max each wave Ramp-down rate~ 2 K/s min ~3.5 K/s typ ~5 K/s max ~ 2 K/s min ~3.5 K/s typ~5 K/s max Time 25 °C to 25 °C4 minutes4 minutesManual solder+350 °C, 4-5 seconds. (by soldering iron), generally manual, hand soldering is not recommended.Eaton is a registered trademark.All other trademarks are property of their respective owners.Follow us on social media to get the latest product and support information.MCL1608V2-101-R MCL1608V2-3R3-R MCL1608V2-6R8-R MCL1608V2-8R2-R。

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L64Q/HD北京XXX科技有限公司企业标准Q/HDZTYO001-数据采集卡( 器)-06-05发布 -06-20实施北京XXX科技有限公司发布Q/HDZTYO001-前言本标准的编写符合GB/T1.1- 《标准化工作导则第1部分标准的结构和编写规则》编写。

本标准根据国家标准GB/T9813- 《微型计算机通用规范》拟制。

本标准由北京XXX科技有限公司提出.本标准起草单位: 北京XXX科技有限公司。

本标准主要起草人: 章磊。

本标准 06月首次发布。

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Q/HDZTYO001-数据采集卡( 器)1 范围本标准规定了数据采集卡( 器) 的要求、试验方法、检验规则及标志、包装、运输、贮存。

本标准适用于XXX数据采集产品( 以下称: 本产品) 。

2 规范性引用文件下列文件中的条款经过本标准的引用而成为本标准的条款。

凡是注日期的引用文件, 其随后所有修改单( 不包括勘误的内容) 或修订均不适用于本标准, 然而, 鼓励根据本标准达成协议的各方研究是否可使用这些文件的最新版本。

凡是不注日期的引用文件, 其最新版本适用于本标准。

GB 191- 包装储运图示标志( eqvISO/IEC646-1991)GB/T2421-1999 电工电子产品环境试验规程第1部分: 总则( eqvIEC68-1: 1988) GB/T2422-1995 电工电子产品环境试验规程术语( eqvIEC68-5-2: 1990)GB/T2423.1-1989 电工电子产品环境试验规程试验A: 低温试验方法( eqvIEC68-2-1: 1974)GB/T2423.2-1989 电工电子产品基本环境试验规程试验B: 高温试验方法( eqvIEC68-2-2: 1974)GB/T2423.3-1993 电工电子产品基本环境试验规程试验Ca: 恒定湿热试验( eqvIEC68-2-3: 1984)GB/T2423.5-1995 电工电子产品环境试验第二部分: 试验方法试验Ea和导则: 冲击( eqvIEC68-2-27: 1987)GB/T2423.6-1995 电工电子产品环境试验第二部分: 试验方法试验Eb和导则: 碰撞( eqvIEC68-2-29: 1987)资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

OM-USB-1608FS SeriesU 16-Bit Resolution U 8 Single-Ended Analog Input Channels U S imultaneous Sampling(1 A/D Converter Per Input)U U p to 400 kS/s Overall Throughput (100 kS/s Maximum for Any Channel)U 8 Digital I/OU 1 Event Counter U External Clock I/OU External Digital Trigger Input U No External Power RequiredThe OM-USB-1608FS Series consists of thefollowing low-cost, analog and digital I/O modules: • OM-USB 1608FS • OM-USB-1608FS-PLUSThese modules provide eight single-ended (SE),simultaneous-sampling 16-bit analog inputs, eight DIO, one event counter, one external digital trigger input, and one bidirectional external clock.Everything you need to begin acquiring, viewing, and storing data is included with each OM-USB-1608FS Series module, including comprehensive software support.SOFTWAREOM-USB-1608FS Series modules ship with an impressive array of software, including the newTracerDAQ ®, a full-featured, out-of-the-box data logging, viewing, and analysis application. Driver support and detailed example programs are included for Universal Library programming libraries for Microsoft ® VisualStudio ® programming languages, and other languages, including DASYLab ®, and ULx for NI LabVIEW ®(comprehensive library of Vls and example programs compatible with 32-bit and 64-bit LabVIEW v8.5through 2013) and InstaCal™ installation, calibration and test utility-powerful solutions for programmers and nonprogrammers alike. These modules operate under Microsoft Windows ® XP (32-bit only) and VISTA/7/8 (32-bit and 64-bit) operating systems.TracerDAQ-PRO Strip Chartwith Measurements.TracerDAQ Strip Chart.OM-USB-1608FS-PLUS shown smaller thanactual size.The OM-USB-1608FS Series data acquisition modules are supplied with TracerDAQ software which is acollection of four virtual instrument applications used to graphically display and store input data and generate output signals:• S trip Chart—Log and graph values acquired from analog inputs, digital inputs, temperature inputs and counter inputs• O scilloscope—Display values acquired fromanalog inputs• F unction Generator—Generate waveforms for analog outputs•R ate Generator—Generate waveforms for counter outputsT racerDAQ PRO is an enhanced version of TracerDAQ. A comparison of some of the features included in TracerDAQ vs TracerDAQ PRO is shown on the next page.digital input, event counter digital input, event counterTime-of-Day Triggering No YesFunction GeneratorANALOG INPUTBoth modules provide eight single-ended (SE) 16-bit analog input channels with a dedicated A/D converter per channel for simultaneous sampling. The devices offer software-selectable analog input ranges for±10V, ±5V, ±2V, and ±1V.SAMPLING RATEOM-USB-1608FS Series modules offer the following sampling rates when scanning continuously to computer memory (hardware-paced mode):• O M-USB-1608FS-PLUS - T otal rate of 400 kS/sdivided by the number of channels sampled;maximum rate of 100 kS/s per channel.• O M-USB-1608FS - Total rate of 100 kS/s dividedby the number of channels sampled; maximum rate of 50 kS/s per channel.SIMULTANEOUS SAMPLINGIn hardware paced mode, both modules can acquire data from up to eight channels simultaneously. The analog data is continuously acquired, converted to digital values, temporarily stored in the onboard FIFO buffer, and periodically uploaded to the computer. CHANNEL-GAIN QUEUEThe channel-gain queue lets you configure a list of channels and gains for each scan. Each channel can have a different gain setting. The gain settings are stored in a channel-gain queue list that is written to local memory on the device. The channel-gain queuelist for both modules can contain up to eight unique channels. On the OM-USB-1608FS, the channels must be consecutive and listed in increasing order. On the OM-USB-1608FS-PLUS, the channels can be non-consecutive, but still must be listed in increasing order.SPECIFICATIONSANALOG INPUTA/D Converter Type: 16-bit successive approximation typeChannels: 8 single-endedInput Configuration: Individual A/D per channel Sampling Method: SimultaneousAbsolute Maximum Input Voltage: CHx IN Relative to GND: ±15V maxInput Impedance: 100 M Ω minInput Ranges: ±10V , ±5V , ±2 V , ±1V; software-selectable per channelSampling Rate (Hardware Paced)O M-USB-1608FS: 0.6 S/s to 50 kS/s, software-selectableO M-USB-1608FS-PL US: 0.01 S/s to 100 kS/s, software-selectable ThroughputSoftware Paced: 500 S/s all channels Hardware Paced (System-Dependent):O M-USB-1608FS: (100 kS/s)/(# of channels) max,50 kS/s max for any channel O M-USB-1608FS-PL US: (400 kS/s)/(# of channels)max, 100 kS/s max for any channel B urst Scan ≤ 32,768 Total Samples (Uses Onboard FIFO):O M-USB-1608FS: (200 kS/s)/(# of channels) max,50 kS/s max for any channel O M-USB-1608FS-PL US: (800 kS/s)/(# of channels)max, 100 kS/s max for any channelDIGITAL I/OBoth modules provide eight digital I/O connections. Each digital channel is individually-configurable for input or output. When configured for input, you can use the digital I/O terminals to detect the state of any TTL level input. On the OM-USB-1608FS-PLUS, the digital I/O channels are high-drive (24 mA) connections.PULL-UP/PULL-DOWN CONFIGURATIONRecent revisions of OM-USB-1608FS Series modules have a user-configurable internal jumper to configurethe digital bits for pull-up (default) or pull-down.COUNTER INPUTThe OM-USB-1608FS-PLUS has a 32-bit event counter that can accept a signal up to 1 MHz. The internal counter increments when the TTL levels transition from low to high.EXTERNAL CLOCK I/OEach OM-USB-1608FS Series module has abidirectional external clock terminal. When configured for input, A/D conversions can be paced by an external source.The OM-USB-1608FS supports TTL-level input signals up to 50 kHz.The OM-USB-1608FS-PLUS supports TTL-level input signals up to 100 kHz.When configured for output, both devices can pace A/D conversions on a second device and acquire data from all input channels simultaneously.TRIGGER INPUTOM-USB-1608FS Series modules provide an external digital trigger input.The OM-USB-1608FS trigger mode is edge sensitive and software-selectable for rising or falling edge.The OM-USB-1608FS-PLUS trigger mode is edge or level sensitive. Edge sensitive is software-selectable for rising or falling edge. Level sensitive is software-selectable for high or low level.CALIBRATIONEach OM-USB-1608FS Series module ships fully calibrated and can be re-calibrated at the factory. The OM-USB-1608FS also supports user calibration.Gain Queue:O M-USB-1608FS: Up to eight elements; one gain element per unique, consecutive channel; software-selectableO M-USB-1608FS-PL US: Up to eight elements; one gain element per unique, ordered channel; software-selectableResolution: 16 bits±10V 5.66 mV ±10V 0.04 4.00 mV 1.66 mV*Summarizes the noise performance for OM-USB-1608FS Series devices. Noise distribution is determined by gathering 50 kS with inputs tied to ground at the user connector. Samples are gathered at the maximum specified sampling rates of 50 kS/s (OM-USB-1608FS) and 100 kS/s (OM-USB-1608FS-PLUS).ACCURACYAnalog Input DC Voltage Measurement AccuracyNo Missing Codes:OM-USB-1608FS: 15 bitsOM-USB-1608FS-P US: 16 bitsCrosstalk (Signal DC to 25 kHz): -80 dBCAL Output (OM-USB-1608FS Only): 0.625V , 1.25V , 2.5V , 5VCAL Output Accuracy (OM-USB-1608FS Only): 0.5% typ, 1.0% max (actual values used for calibration are measured and stored in EEPROM)CAL Current (OM-USB-1608FS Only): ±5 mA max Trigger Source (Software-Selectable) External Digital: TRIG_INDIGITAL INPUT/OUTPUT Digital Type:OM-USB-1608FS: CMOSOM-USB-1608FS-P US: 5V TTL Number of I/O: 8 (DIO0 through DIO7)Configuration: Independently configured for input or outputPull-Up/Pull-Down Configuration: All pins pulled up to 5V via 47 k Ω resistors (default). May be changed to pull-down using an internal jumper (OM-USB-1608FS hardware revisions E and later may be changed to pull-down using an internal user-configurable jumper. Previous revisions can be configured for pull-down at the factory).Input High Voltage Threshold: 2.0V min Input High Voltage Limit: 5.5V absolute max Input Low Voltage Threshold: 0.8V maxInput Low Voltage Limit: -0.5V absolute min; 0V recommended min Output High Voltage:OM-USB-1608FS (IOH = –2.5 mA): 3.8V min O M-USB-1608FS-PL US: 4.4V min (IOH = -50 μA); 3.76V min (IOH = -24 mA)Output Low Voltage:OM-USB-1608FS (IOL = 2.5 mA): 0.44V max O M-USB-1608FS-PL US: 0.1V max (IOL = 50 μA); 0.44V max (IOL = 24 mA)Power On and Reset State: InputEXTERNAL TRIGGERTrigger Source (External Digital): TRIG_IN Trigger Mode (Software-Selectable):O M-USB-1608FS: Edge sensitive: user configurable for CMOS compatible rising or falling edge O M-USB-1608FS-PL US: Edge sensitive or level sensitive: user configurable for CMOS compatible rising or falling edge, high or low level Trigger Latency:OM-USB-1608FS: 10 μs maxO M-USB-1608FS-PLUS: 2 μs + 1 pacer clock cycle max Trigger Pulse Width: 1 μs minInput Type: Schmitt trigger, 47 k Ω pull-down to ground Schmitt Trigger Hysteresis: 1.01V typ, 0.6V min, 1.5V maxInput High Voltage Threshold: 2.43V typ, 1.9V min, 3.1V maxInput High Voltage Limit: 5.5V absolute maxInput Low Voltage Threshold: 1.42V typ, 1.0V min, 2.0V maxInput Low Voltage Limit: -0.5V absolute min, 0V recommended minEXTERNAL CLOCK I/O Pin Name: SYNCPin Type: BidirectionalDirection (Software-Selectable):Input: Receives A/D pacer clock from external source; Output: Outputs internal A/D pacer clockOrdering Example: OM-USB-1608FS 8-channel 100 kS/s simultaneous analog input USB data acquisition module and OCW-1, OMEGACARE SM extends standard 1-year warranty to a total of 2 years.Input Clock Rate:OM-USB-1608FS: 50 kHz maxOM-USB-1608FS-P US: 100 kHz max Clock Pulse Width: Input: 1 μs min Output:OM-USB-1608FS: 5 μs minOM-USB-1608FS-P US: 4 μs minInput Clock Mode: Edge sensitive, rising edgeInput Type: Schmitt trigger, 47 k Ω pull-down to ground Schmitt Trigger Hysteresis: 1.01V typ, 0.6V min, 1.5V maxInput High Voltage Threshold: 2.43V typ, 1.9V min, 3.1V maxInput High Voltage Limit: 5.5V absolute maxInput Low Voltage Threshold: 1.42V typ, 1.0V min, 2.0V maxInput Low Voltage Limit: -0.5V absolute min, 0V recommended minOutput High Voltage: 4.4V min (IOH = -50 μA), 3.80V min (IOH = -8 mA)Output Low Voltage: 0.1V max (IOL = 50 μA), 0.44V max (IOL = 8 mA)COUNTERPin Name: CTRCounter Type: Event counter Number Of Channels: 1Input Type: Schmitt trigger, 47 k Ω pull-down to ground Input Source: CTR screw terminal Resolution: 32 bitsSchmitt Trigger Hysteresis: 1.01V typ, 0.6V min, 1.5V maxInput High Voltage Threshold: 2.43V typ, 1.9V min, 3.1V maxInput High Voltage Limit: 5.5V absolute maxInput Low Voltage Threshold: 1.42V typ, 1.0V min, 2.0V maxInput Low Voltage Limit: -0.5V absolute min, 0V recommended minInput Frequency: 1 MHz max High Pulse Width: 500 ns min Low Pulse Width: 500 ns minPOWERSupply CurrentUSB Enumeration: < 100 mAIncluding DIO and SYNC Output Loading: < 500 mA +5V USB Power Available (Connected to Externally-Powered Root Port Hub or a Self-Powered Hub): 4.5V min, 5.25V maxOutput Current (Total Amount of Current that can be Sourced from the USB 5V and Digital Outputs): 300 mA maxMEMORYData FIFO: 32,768 samples, 65,536 bytes EEPROM:OM-USB-1608FS: 1024 bytesOM-USB-1608FS-P US: 2048 bytesGENERALOperating Temperature Range: 0 to 70°C (32 to 158°F), 0 to 90% RH non-condensing Storage Temperature Range: -40 to 70°C(-40 to 158°F), 0 to 90% RH non-condensingCommunications: USB 2.0 hi-speed mode (480Mbps) is recommended; otherwise USB 1.1 full-speed mode (12 Mbps)Microcontroller Type: High performance 32-bit RISC Signal I/O Connector Type: Screw terminal USB Cable Length: 3 m (9.84') max Dimensions: 79 L x 82 W x 27 mm H (3.10 x 3.20 x 1.05") Weight: 91 g (3.2 oz)OMEGACARE SM extended warranty program is available for models shown on this page. Ask your sales representative for full details when placing an order. OMEGACARE SM covers parts,labor and equivalent loaners.。

数据采集卡主要参数数据采集(DAQ)，是指从传感器和其它待测设备等模拟和数字被测单元中自动采非电量或者电量信号，送到上位机中进行分析，处理。

数据采集系统是结合基于计算机或者其他专用测试平台的测量软硬件产品来实现灵活的、用户自定义的测量系统。

●通道数：就是板卡可以采集几路的信号，分为单端和差分。

常用的有单端32路/差分16路、单端16路/差分8路●采样频率：单位时间采集的数据点数，与AD芯片的转换一个点所需时间有关，例如：AD转换一个点需要T = 10uS，则其采样频率f = 1 / T为100K，即每秒钟AD芯片可以转换100K的数据点数。

它用赫兹（Hz），常有100K、250K、500K、800K、1M、40M等●缓存的区别及它的作用：主要用来存储AD芯片转换后的数据。

有缓存可以设置采样频率，没有则不可以。

缓存有RAM和FIFO两种:FIFO应用在数据采集卡上，做数据缓冲，存储量不大，速度快。

RAM是随机存取内存的简称。

一般用于高速采集卡，存储量大，速度较慢。

●分辨率：采样数据最低位所代表的模拟量的值，常有12位、14位、16位等（12位分辨率，电压5000mV）12位所能表示的数据量为4096（2的12次方），即±5000 mV电压量程内可以表示4096个电压值，单位增量为（5000 mV）/ 4096=1.22 mV。

分辨率与A/D 转换器的位数有确定的关系，可以表示成FS/2n。

FS表示满量程输入值，n为A/D转换器的位数。

位数越多，分辨率越高。

●精度：测量值和真实值之间的误差，标称数据采集卡的测量准确程度，一般用满量程(FSR，full scale range)的百分比表示，常见的如0.05%FSR、0.1%FSR等，如满量程范围为0~10V，其精度为0.1%FSR，则代表测量所得到的数值和真实值之间的差距在10mv以内。

●量程：输入信号的幅度，常用有±5V、±10V 、0~5V 、0~10V ，要求输入信号在量程内进行●增益：输入信号的放大倍数，分为程控增益和硬件增益，通过数据采集卡的电压放大芯片将AD转换后的数据进行固定倍数的放大。

关于PMD-1608FS用户指南中包含您需要连接PMD-1608FS到您计算机和需测量信号的所有信息，PMD-1608FS是基于USB的数据采集产品个人测量设备品牌的一部分。

PMD-1608FS由USB2.0 全速设备支持，在Microsoft Windows 98, Windows ME, Windows 2000以及Windows XP之下运行。

PMD-1608FS 提供多达16位单端模拟输入的同步采样。

做到这一点，需要每个通道各连接一个A/D转换器。

每个通道的范围单独配置。

8条数字式I/O都可独立选择作为输入输出。

32位计数器能够计数TTL脉冲。

PMD-1608FS通过计算机USB 提供+5Vde电源，无需外部电源。

SYNC（同步）控制线允许您连接两个PMD-1608FS 模块从16模拟输入通道同步获取数据。

PMD-1608FS结构图这里PMD-1608FS的作用可在下面的结构图中说明。

图二PMD-1608FS 功能图软件功能PMD-1608FS运行需要具有以下软件：⏹Insta Cal 安装，校准以及测试应用。

⏹TracerDAQ 带图/数据记录应用⏹Universal Library 数据采集和控制编程库⏹SoftWIRE for (全功能，在有限授权时间内)⏹SoftWIRE for VB6(全功能，在有限授权时间内)⏹.NET 的SoftWIRE MCC DAQ组件⏹VB6的SoftWIRE MCC DAQ 控制⏹Universal Library for LabVIEWInsta CalInsta Cal 为MCC data 采集和控制硬件完成安装，校准和测试程序。

完成广泛的错误检查的同时，Insta Cal引导您通过安装和设置您的PMD-1608FS，并创造了硬件配置文件供您的编程器和应用软件使用。

Insta Cal 提供最简单的方法来校正和配置PMD-1608FSTracerDAQTracerDAQ随Insta Cal安装。