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EXTECH.INSTRUMENTS User ManualExtech Model IR320Waterproof, Dual Laser IR Thermometer with Alarm1.IntroductionThank you for selecting the Extech IR320 IR Thermometer. The IR320 is a professional non-contact infrared thermometer that measures surface temperature from infrared energy radiated by the target's surface. We ship this meter fully tested and calibrated and, with proper use, it will provide years of reliable service. Please visit our website () for the latest version of this User Manual and Customer Support.2.Product FeaturesStrong and Durable: 3m (9.8 ft.) drop-proofDustproof and Waterproof: IP65Ergonomic Design: Comfortable handheld, simple and convenient operationMAX/MIN/AVG/DIF values: Quickly display the Maximum, Minimum, Average (running average updates every two readings), and Differential (Max minus Min) valuesLarge Backlit LCDTripod mount for hands-free operationAlarm Function: High/Low temperature alarm provides flashing color-coded LED indicators when triggeredDual Laser Pointers: To enhance measurement target accuracy3.Safety Instructions� WARNINGTo avoid personal injury, please read the following safety information before using this product:•Safety Standards Compliance:CE Identification: EN 61326-1: 2013, EN 61326-2-3: 2013Laser Safety Standard: Complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser notice no. 50 dated June 24, 2007•Please do not point the laser toward people or anima l s directly or indirectly.•Please do not look at the laser directly or through other optical tools (telescope, microscope, etc.).•If the battery symbol on the LCD display is flashing, replace the batteries immediately to avoid inaccurate measurements.•Before using the product, check the product for damage. Do not use this product if obvious physical damage is apparent.•Refer to the Table of Emissivity Factors for Common Materials in this manual before taking measurements. Reflective objects will cause the measured value to be lower than the actual temperature value. Set the emissivity to match each given surface type. When measuring, please do not touch high temperature surfaces.•Do not use this product near explosive gases.•To ensure measurement accuracy, place this product in the test environment for more than 30 minutes before use.•Avoid keeping the thermometer near high temperature objects for long periods.1&LAIBIUIHTDO IIR'IIME 111111--.eu112LA1B1PRIIDUCT IIAI CIUJIIUIPIMBl<I ..WAIB.BII:--CXM'I.IESWllll 21 CFII1040. 10AII) 1040.11 EJaPI' FCII IIE'Mlll PIIISIWIlO LASBI NlfflCE NO. IIO MIED.DIE 24, 211117.IR320-en-GB_ V l.O f{18Test Equipment Depot - 800.517.8431 - 99 Washington Street Melrose, MA 02176 - 5.OperationPower On and OffPull the trigger to power the meter, the LCD (and backlight) will turn on. The thermometer will power off automatically after approximately eight (8) seconds.Manual Measurements1.Pull and hold the trigger after aiming toward the target to measure.2.The SCAN icon will flash while measuring the targeted surface or object. The center of the measurement spot is equidistant between the two laser points (enable/disable lasers per the Lasers Enable/Disable section).3.Read the temperature measurement on the large digits at the center of the LCD.4.Release the trigger. The SCAN icon disappears and the HOLD icon appears, indicating that the measurement has stopped and the display is holding the last measured value. The meter will power off automatically after approximately eight (8) seconds.Automatic Measurements (trigger-free)MAX/MIN/AVG/DIF ValuesWith the meter ON, short press the RCL (Recall) button to step through the MAX/MIN/AVG/DIF modes respectively; the display will show the value of the corresponding mode in the secondary display area (lower right). The MAX value is the highest reading taken in a given measurement session, the MIN value is the lowest reading, the AVG value is a running average that updates every two readings, and the differential (DIF) is the MAX minus MIN value.Alarm ActivationWith the meter ON, short press the HI/LO button to select the HI-LO alarm mode, HI-only alarm mode, LO-only alarm mode, or no alarm mode (the display icons will inform as to what mode is currently selected: HI, LO, HI-LO, or no icons). When you select the HI alarm mode, the HI LED will flash red when the measured temperature exceeds the high alarm limit. When you select the LO alarm mode, the LO LED will flash blue when the measured temperature is lower than the low alarm limit. When you select the HI-LO alarm mode, the HI or LO LED will flash depending on whether the measured temperature is higher than the HI limit or lower than the LO limit.HIGH and LOW Alarm Limit SettingWith the meter ON, short press the M button once to access the HI alarm screen or press M twice to step to the LO alarm screen. Use the up/down buttons to set the alarm thresholds. Short press the up/down buttons to add or subtract 1 unit, long press to change the units rapidly. The meter will exit the setup screen automatically after five (5) seconds of button inactivity.3 IR320-en-GB_V1.0 6/187.Emissivity ConsiderationsThe Emissivity setting is shown in small digits at the lower left corner of the display. To adjust the Emissivity please refer to the Emissivity Setting section. Emissivity represents the reflectivity of a material. Most organic materials and painted or oxidized surfaces have an emissivity of approximately 0.95. Masking tape or flat black paint should be applied to cover the measured surface. Wait a period of time to allow the tape or paint to reach thermal equilibrium with the surface of the covered object. Measure the temperature of the surface covered with tape or paint only after equilibrium has been achieved.I M easured Surfaces MetalsAluminumOxidization A3003 AlloyOxidizationRough BrassBurnishingOxidization CopperOxidization Table of Emissivity Factors for Common MaterialsI E missivity0.2-0.40.30.1-0.30.30.50.4-0.811 M easured SurfacesNon-MetalsAsbestosAsphaltBasaltCarbonNon-OxidizationElectric Terminal Board 0.6 GraphiteSilicon Carbide Hastelloy CeramicsAllov 0.3-0.8lnconel ClayOxidization 0.7-0.95Sand-Blasting 0.3-0.6Electro Burn i sh i ng 0.15Iron Concrete Oxidization 0.5-0.9Rusting 0.5-0.7Iron (Casting) Cloth Oxidization 0.6-0.95Non-Oxidization 0.2Casting 0.2-0.3Iron (Forging) Glass Passivation 0.9 Convex GlassSmooth GlassLead-Boron Glass lead Plates Rough 0.4Oxidizat i on 0.2-0.6Molybdenum Stone Products Oxid i zation 0.2-0.6Nickel Plaster Ox i dization 0.2-0.5Plat i num IceBlack 0.9Steel Limestone Cold rolling 0.7-0.9Steel Plate Burnishing 0.4-0.6Steel Plate Rubbing 0.1Zinc Paper Oxidizat i on 0.1PlasticsWaterSoilWood5 Emissivity I I 0.950.950.70.8-0.90.7-0.80.90.950.950.950.90.76-0.80.92-0.940.78-0.820.960.930.8-0.950.980.980.950.950.930.9-0.980.9-0.95IR320-en-GB_ V l.O f{18Test Equipment Depot - 800.517.8431 - 99 Washington Street Melrose, MA 02176 - 9.SpecificationsSafety Standards ComplianceCE Identification: EN 61326-1: 2013, EN 61326-2-3: 2013Laser Safety Standard: Complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser notice no.50 dated June 24, 2007Test Equipment Depot - 800.517.8431 - 99 Washington Street Melrose, MA 02176 - 7 IR320-en-GB_V1.0 6/18。

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705, 706, 710 & 726 Personal attack transmittersWhy settle for less when your staffneed help most?Hopefully, your staff will never need to find out whyour personal attack transmitters are so highly regarded.But should they ever be attacked, they’ll quickly realisewhy over 750,000 people worldwide trust them withtheir lives. The 705, 706, 710 and 726 models all comewith 10mW transmitting power compared to the usual0.25mW. And, to ensure your transmitter is alwaysworking, the long-life lithium battery sends a signalwhen less than one month’s operation remains.All models are designed to prevent accidental activationand a variety of wearing options – hand-held, neckpendant or clip-on – means there’s a style to suiteveryone.With many other state-of-the-art features (see overleaf),no other range of personal attack transmitters is betterequipped to draw attention to a member of staff whenthey are under attack.• Reliable, secure Scantronic 868 MHz narrow-bandradio operation• Dual button operation• 2-channel version for alert (pre-warning) + alarmsignals• Extended and standard range options• Lithium battery-powered (supplied)At a glance...Tel: +44 (0)1594 545 400Fax: +44 (0)1594 545 401Email:***********************Web: EatonElectrical Sector EMEA Route de la Longeraie 71110 Morges, Switzerland EatonSecurity House,Vantage Point Business Village, Mitcheldean, Gloucestershire GL17 0SXScantronic and Menvier product datasheetCompatible productsProduct specification705rEUR-00706rEUR-00710rEUR-00726rEUR-50726rEUR-60Part number 710rEUR-00705rEUR-00706rEUR-00726rEUR-50726rEUR-60Description2 channel personal attack transmitter2 channel personal attack transmitter Double push lock, beltmounted, secondary tilit sensor “man down” channel Extended range, dualoperation personal attack transmitter Standard, dual operationpersonal attack transmitter Channels12 (alert + alarm)211Operating frequency868.6625MHz @ 20KHz bandwidth.CE tested to I-ETS 300 220868.6625MHz @ 20KHz bandwidth.CE tested to I-ETS 300 220868.6625MHz at 20kHz bandwidth. I-ETS 300 220868.6625MHz @ 20KHz bandwidth.CE tested to I-ETS 300 220868.6625MHz @ 20KHz bandwidth.CE tested to I-ETS 300 220T ransmission power 10mW 10mW 10mW 10mW 10mW Free space radio range >1000m >600m>900m> 1000m>600mPower supply (battery)3v CR2 Li 3.6v Li 1/2 AA Not user replaceble 3.6v Li 1/2 AA Not user replaceable 3.6v Li 1/2 AA Not user replaceble 3.6v Li 1/2 AA Not user replaceble T ypical battery life 3-5 years 3-5 years 3-5 years 3-5 years 3-5 years T emperature range -10 to +55 ˚C -10 to +55 ˚C -10 to +55 ˚C -10 to +55 ˚C -10 to +55 ˚C Dimensions 58 x 40 x 16mm 104 x 46 x 30mm 170 x 45 x 30mm (including aerial)163 x 46 x 30mm 104 x 46 x 30mm Weight 34gm 60gm 68gm 65gm 65gm Colour Dark GreyDark GreyDark GreyDark GreyDark GreyComplianceEN50131-2 Grade 2, EN61000-6-3:2001, environmental class ll PD6662:2004EN50131-2 Grade 2, EN61000-6-3:2001, environmental class ll PD6662:2004EN50131-2 Grade 2EN61000-6-3:2001environmental class II PD6662:2004EN50131-2 Grade 2, EN61000-6-3:2001, environmental class ll PD6662:2004EN50131-2 Grade 2, EN61000-6-3:2001, environmental class ll PD6662:2004Scantronic 9960rEUR-08 & 16 RFX receiver interfaces (not 705rEUR-00)i-on4040 zone control panel Scantronic Homelink 55 24zone radio alarm panel (not 705rEUR-00)i-on50EX 50 zone control panel Scantronic Homelink 75 32zone radio alarm system (not 705rEUR-00)i-on160EX 160 zone control panel Scantronic 762rEUR-00 2 channel receiver Menvier3030 zone control panel Scantronic 768rEUR-008 - 32 channel receiver Menvier4040 zone control panel Scantronic EXP-R1010 zone radio expander Menvier100100 zone control panel Scantronic EXP-R3030 zone radio expander Menvier300300 zone control paneli-on1616 zone control panel Menvier MRNODE receiver interface (not 705rEUR-00)i-on30EX16 zone control panelMultibus1000 zone control panel。

Pub. No. I ZS-56360-E DATE OF ISSUE: DEC. 2008目录设备清单 (iii)系统配置 (iv)1. 安装 (1)1.1 天线单元 (1)1.2 终端机 (7)1.3 遇难报警／确认收信单元 IC-305／警报单元 IC-306 (9)1.4 打印机 PP-510（可选）／EGC 打印机 PP-505（可选） (10)1.5 AC/DC 电源单元 PR-240（可选） (10)1.6 接线盒 IC-315 (11)2. 布线 (12)2.1 终端机上的天线电缆接头 (13)2.2 遇难报警／确认收信单元 IC-305 (15)2.3 警报单元 IC-306 (16)2.4 接线盒 IC-315 (17)3. 初始设置 (18)3.1 设置 IMN（INMARSAT 移动识别码） (18)3.2 外部设备设置 (19)4. 安装 GPS 电路板（可选） (20)5. 更改电源规格 (23)装箱单.............................................................................................................................A-1外形图.............................................................................................................................D-1接线图.............................................................................................................................S-1设备清单标准配件 名称型号 编号 数量备注 天线单元IC-115 - 1 终端机IC-215 - 1 遇难报警／确认收信单元IC-305 - 1 警报单元IC-306 - 1接线盒 IC-315 - 1 w/CP16-02501*CP16-02101 004-439-060 用于 30 米电缆，天线单元*CP16-02111 004-439-070用于 50 米电缆，天线单元* CP16-02121 004-439-080 1 套用于 100 米电缆，天线单元*CP16-02300 000-043-433 1 套CP16-02301（用于 IC-215）*， CP16-02302（用于键盘）*CP16-02201 004-438-890 1 套用于 IC-305/306TP5FBAW-5DFBB 000-159-523-1130 米天线电缆8D-FB-CV 000-117-599 50 米天线电缆 安装材料 12D-SFA-CV 000-138-866 1100 米天线电缆附件FP16-00600 000-043-434 1 套 迷你键盘 (BTC-5100C)，FD (FP16-00601)备件SP16-01301 004-439-370 1 套 保险丝* 选用件 名称型号 编号 数量 备注FD-ROM 16-5-0164 004-438-920 1 套GPS 电路板 OP16-47 001-017-110 1 套GPS 电路板套件 OP16-48 000-011-766 1 套RF 盖 (GPS) OP16-49 000-011-767 1EGC 打印机 PP-505 - 1打印机 PP-510 - 1 w/CP16-01200*AC/DC 电源单元 PR-240 - 1 w/CP24-00151*000-560-452用于接线盒，10 米000-103-868用于接线盒，20 米 000-103-869用于接线盒，30 米 000-132-829用于接线盒，40 米5 组对绞线 CO-SPEVV-SB-C 0.2x5P 000-132-828 1 用于接线盒，50 米SSAS 修正包** OP16-33 000-043-492 1 IC-307（2 件），FD-ROM（用于 RFCON CPU ，用于TERM CPU ）SSAS 警报单元** IC-307 000-043-473 1 w/CP16-03101, FP16-00901OP16-27 004-448-000 1 用于遇难报警/确认收信单元，警报单元嵌入安装工具包 OP16-28 004-448-010 1 用于 SSAS 警报单元ALC (FFA) 修正包* OP16-26 004-439-840 1俄语套件 OP16-43 004-449-590 1 用于 IC-215PC 终端机软件 OP16-45 004-449-600 1 俄语天线安装套件 CP16-03701 004-555-000 1 套天线支架 CP16-03702 001-016-260 1 参阅第 D-14 页。

FEATURES• Engineered for professional live sound:Rugged all-in-one combo wireless system for singers, presenters and moderators.• Dynamic handheld microphone e 835, robust bodypack transmitter and unobstrusive clip-on microphone ME 2-II (omni-directional) with high speech intelligibility for daily use on stage• True diversity half-rack receiver in a full-metal housing with intuitive LCD display for full control• Easy and flexible wireless synchronization between transmitter and receiver via infrared• Fast frequency allocation for up to 12 receivers via new linking functionality• Up to 20 compatible channels• Up to 42 MHz bandwidth with 1680 selectable frequen-cies, fully tunable in a stable UHF range• Transmission Range: up to 100 meters / 300 feet• High RF output power (up to 30 mW) depending on country regulations DELIVERY INCLUDES• EM 100 G4• SK 100 G4• SKM 100-S G4• MMD 835-1• ME 2• GA 3• MZQ 1 microphone clamp• power supply• 4 AA batteries• antennen• RJ 10• quick guide• safety guide• manufacturer declaration sheet • frequency supplement sheetVersatile wireless systems for those who sing, speak or play instruments with up to 42 MHz tuning bandwidth in a stable UHF range and fast, simultaneous setup of up to 12 linked systems.Dynamic handheld microphone e 835, robust bodypack transmitter and easy clip-on microphone ME 2-II (omni-directio-nal) with high speech intelligibility for daily use on stage.SPECIFICATIONSEM 100 G4RF characteristicsModulation Wideband FM Frequency ranges A1: 470 - 516 MHzA: 516 - 558 MHzAS: 520 - 558 MHzG: 566 - 608 MHzGB: 606 - 648 MHzB: 626 - 668 MHzC: 734 - 776 MHzD: 780 - 822 MHzE: 823 - 865 MHzJB: 806 - 810 MHzK+: 925 - 937.5 MHz1G8: 1785 - 1800 MHz Receiving frequencies Max. 1680 receivingfrequencies, adjustable in25 k Hz steps20 frequency banks, eachwith up to 12 factory-presetchannels, no intermodula-tion1 frequency bank with up to12 programmable channels Switching bandwidth up to 42 MHzNominal/peak deviation±24 kHz / ±48 kHz Receiver principle True diversitySensitivity (with HDX, peak deviation)< 2.5 μV for 52 dBAeff S/NAdjacent channel selection Typically ≥ 65 dB Intermodulation attenua-tionTypically ≥ 65 dB Blocking≥ 70 dB Squelch low: 5 dBμVmiddle: 15 dBμVhigh: 25 dBμVPilot tone squelch Can be switched off Antenna inputs 2 BNC socketsAF characteristicsCompander system Sennheiser HDXEQ presets (switchable,act on line and monitoroutputs)Preset 1: FlatPreset 2:Low Cut (-3 dB at 180 Hz)Preset 3:Low Cut/High Boost(-3 dB at 180 Hz,+6 dB at 10 kHz)Preset 4:High Boost(+6 dB at 10 kHz)Signal-to-noise ratio (1 mV,peak deviation)≥ 110 dBATotal harmonic distortion(THD)≤ 0.9 %AF output voltage (at peakdeviation, 1 kHz AF)6.3 mm jack socket(unbalanced): +12 dBuXLR socket(balanced): +18 dBu Setting range “AF Out”48 dB (3 dB steps) Overall deviceTemperature range-10 °C to +55 °CPower supply12 V DCCurrent consumption300 mADimensions Approx. 190 x 212 x 43 mm Weight Approx. 980 gCONNECTIONSSPECIFICATIONSSK 100 G4RF characteristicsModulation Wideband FM Frequency ranges A1: 470 - 516 MHzA: 516 - 558 MHzAS: 520 - 558 MHzG: 566 - 608 MHzGB: 606 - 648 MHzB: 626 - 668 MHzC: 734 - 776 MHzD: 780 - 822 MHzE: 823 - 865 MHzJB: 806 - 810 MHzK+: 925 - 937.5 MHz1G8: 1785 - 1800 MHz Transmission frequencies Max. 1680 receivingfrequencies, adjustable in25 k Hz steps20 frequency banks, eachwith up to 12 factory-presetchannels, no intermodula-tion1 frequency bank with up to12 programmable channels Switching bandwidth up to 42 MHzNominal/peak deviation±24 kHz / ±48 kHz Frequency stability≤ ±15 ppmRF output power at 50 ΩMax. 30 mWPilot tone squelch Can be switched off AF characteristicsCompander system Sennheiser HDXAF frequency response Mic: 80 – 18,000 HzLine: 25 – 18,000 Hz Signal-to-noise ratio (1 mV,peak deviation)≥ 110 dBATotal harmonic distortion(THD)≤ 0.9 %Max. microphone/lineinput voltage3 VeffMicrophone/line inputimpedance40 kΩ, unbalanced / 1 MΩInput capacitance SwitchableSetting range for inputsensitivity60 dB,adjustable in 3 dB steps Overall deviceTemperature range-10 °C to +55 °CPower supply 2 AA batteries, 1.5 V orBA 2015 accupack Nominal voltage 3 V battery /2.4 V rechargeable battery Current consumption at nominal voltage:typ. 180 mAwith transmitter switchedoff: ≤ 25 μAOperating time Typically 8 h Dimensions Approx. 82 x 64 x 24 mm Weight (incl. batteries)approx. 160 gSPECIFICATIONSME 2Transducer principle pre-polarized condensormicrophonePick-up pattern omni-directional Sensitivity (free field, noload) (1 kHz)20 mV/PaMax. SPL at 1 kHz130 dBFrequency response50 to 18,000 Hz Equivalent noise levelA-weighted (DIN IEC 651)36 dBConnector 3.5 mm jackCable length approx. 1.60 mSupply voltage7.5 VSPECIFICATIONSSKM 100 G4-SRF characteristicsModulation Wideband FM Frequency ranges A1: 470 - 516 MHzA: 516 - 558 MHzAS: 520 - 558 MHzG: 566 - 608 MHzGB: 606 - 648 MHzB: 626 - 668 MHzC: 734 - 776 MHzD: 780 - 822 MHzE: 823 - 865 MHzJB: 806 - 810 MHzK+: 925 - 937.5 MHz1G8: 1785 - 1800 MHz Transmission frequencies Max. 1680 receivingfrequencies, adjustable in25 k Hz steps20 frequency banks, eachwith up to 12 factory-presetchannels, no intermodula-tion1 frequency bank with up to12 programmable channels Switching bandwidth up to 42 MHzNominal/peak deviation±24 kHz / ±48 kHz Frequency stability≤ ±15 ppmRF output power at 50 ΩMax. 30 mWPilot tone squelch Can be switched off AF characteristicsCompander system Sennheiser HDXAF frequency response80 – 18,000 HzSignal-to-noise ratio (1 mV,peak deviation)≥ 110 dBATotal harmonic distortion(THD)≤ 0.9 %Max. input voltage 3 VeffInput impedance40 kΩInput capacitance SwitchableSetting range for inputsensitivity48 dB,adjustable in 6 dB steps Overall deviceTemperature range-10 °C to +55 °CPower supply 2 AA batteries, 1.5 V orBA 2015 accupack Nominal voltage 3 V battery /2.4 V rechargeable battery Current consumption at nominal voltage:typ. 180 mAwith transmitter switchedoff: ≤ 25 μAOperating time Typically 8 h Dimensions Approx. Ø 50 x 265 mm Weight (incl. batteries)approx. 450 gSPECIFICATIONSMMD 835-1Transducer principle dynamic Sensitivity 2.1 mV/Pa Sound pressure level154 dB SPL Pick-up pattern cardioidPRODUCT VARIANTSMade in Germanyew 100 G4-ME2-835-S-A1470 - 516 MHz Art. no. 507577 ew 100 G4-ME2-835-S-A516 - 558 MHz Art. no. 507578 ew 100 G4-ME2-835-S-GB606 - 648 MHz Art. no. 507579 ew 100 G4-ME2-835-S-G566 - 608 MHz Art. no. 507580 ew 100 G4-ME2-835-S-B626 - 668 MHz Art. no. 507581 ew 100 G4-ME2-835-S-C734 - 776 MHz Art. no. 507582 ew 100 G4-ME2-835-S-E823 - 865 MHz Art. no. 507583 ew 100 G4-ME2-835-S-1G81785 - 1800 MHz Art. no. 507584 Assembled in USAew 100 G4-ME2-835-A1470 - 516 MHz Art. no. 507922 ew 100 G4-ME2-835-A516 - 558 MHz Art. no. 507923 ew 100 G4-ME2-835-AS520 - 558 MHz Art. no. 507924 ew 100 G4-ME2-835-G566 - 608 MHz Art. no. 507925 ew 100 G4-ME2-835-B626 - 668 MHz Art. no. 507926 ew 100 G4-ME2-835-C734 - 776 MHz Art. no. 507927 ew 100 G4-ME2-835-D780 - 822 MHz Art. no. 507928DIMENSIONS EM 100 G4DIMENSIONS3,5mm Klinke 3,5mm plugDIMENSIONS SKM 100 G4-SARCHITECT‘S SPECIFICATIONA wireless RF transmission system consisting of a stationary receiver, a bodypack transmitter with a clip-on microphone and a radio microphone with a cardioid dynamic microphone head.The system shall operate within twelve UHF frequency ranges, with a switching bandwidth of up to 42 MHz: 470 –516 M Hz, 516 – 558 MHz, 520 – 558 MHz, 566 – 608 M Hz, 606 – 648 MHz, 626 – 668 MHz, 734 – 776 MHz, 780 – 822 M Hz, 823 – 865 MHz, 806 – 810 MHz, 925 – 937.5 M Hz, 1785 – 1800 MHz; receiving frequencies shall be 1,680 per range and shall be tunable in 25 kHz steps. The system shall feature 20 fixed frequency banks with up to 12 compatible frequency presets and 1 user bank with up to 12 user programmable frequencies.The receiver shall be menu-driven with a backlit LC display showing the current frequency, frequency bank and channel number, metering of RF level, metering of AF level, lock status, pilot tone evaluation, muting function, and battery status of the associated transmitter. An auto-lock feature shall be provided to prevent settings from being accidentally altered. The receiver shall feature an integrated guitar tuner and shall provide a sound check mode.Some receiver parameters such as receiving frequency, receiver name and pilot tone setting shall be synchronizable with the associated transmitter via an integrated infrared interface.The receiver shall feature a balanced XLR-3M audio output with a maximum output of +18 dBu along with an unbalanced ¼" (6.3 mm) audio output with a maximum output of +12 dBu. The receiver shall have two DATA ports (RJ 10) to set up a multichannel system. Two BNC-type input sockets shall be provided for connecting the antennas.Nominal/peak deviation shall be ±24 kHz/±48 kHz. Squelch threshold shall be adjustable to three levels: Low (5 dBμV), Middle (15 dBμV) and High (25 dBμV).The receiver shall incorporate the Sennheiser HDX compander system and a defeatable pilot tone squelch. Sensitivity shall be < 2 μV for 52 dBA eff S/N with HDX engaged at peak deviation. Adjacent channel rejection shall be ≥ 65 d B (ty-pical). Intermodulation attenuation shall be ≥ 65 d B (typical); blocking shall be ≥ 70 dB. Four selectable equalizer presets shall be provided: “Flat”, “Low Cut” (−3 d B at 180 Hz), “Low Cut/High Boost” (−3 d B at 180 H z/+6 dB at 10 kHz) and “High Boost” (+6 dB at 10 k Hz).Signal-to-noise ratio at 1 mV and peak deviation shall be ≥ 110 dBA. Total harmonic distortion (THD) shall be ≤ 0.9 %. The audio output level shall be adjustable within a 48 d B range in steps of 3 dB.The receiver shall operate on 12 V power supplied from the NT 2-3 CW mains unit (for 100 – 240 V AC, 50/60 Hz). Power consumption shall be 300 mA. The receiver shall have a rugged metal housing; dimensions shall be approximately 190 x 212 x 43 mm (7.48" x 8.35" x 1.69"). Weight shall be approximately 980 grams (2.16 lbs). Operating temperature shall range from −10 °C to +55 °C (+14 °F to +131 °F).The receiver shall be the Sennheiser EM 100 G4.The bodypack transmitter shall be menu-driven with a backlit LC display showing the current frequency, frequency bank and channel number, metering of AF level, transmission status, lock status, pilot tone transmission, muting function, and battery status. An auto-lock feature shall be provided to prevent settings from being accidentally altered.The transmitter parameters shall either be configurable in the associated receiver’s menu and synchronized with the transmitter via an integrated infrared interface or shall be programmable in the transmitter menu.The transmitter shall be equipped with a mute switch, which shall be switchable between “AF on/off”, “RF on/off” and “Disabled” via the user interface.Nominal/peak deviation shall be ±24 kHz/±48 kHz. Frequency stability shall be ≤ ±15 ppm. RF output power at 50 Ω shall be 30 mW (typical).The transmitter shall incorporate the Sennheiser HDX compander system and a defeatable pilot tone squelch. Audio fre-quency response shall range from 80 – 18,000 H z (microphone) or 25 - 18,000 Hz (line). Signal-to-noise ratio at 1 mV and peak deviation shall be ≥ 110 dBA. Total harmonic distortion (THD) shall be ≤ 0.9 %. Input sensitivity shall be adjustable within a 60 dB range in steps of 3 dB.Power shall be supplied to the transmitter by two 1.5 V A A size batteries or by one Sennheiser BA 2015 rechargeable accupack. Nominal voltage shall be 2.4 V for a rechargeable battery or 3 V for a battery, current consumption shall be typical 180 mA at nominal voltage; ≤ 25 μA when transmitter is switched off. Operating time shall be typical 8 h ours. The transmitter shall have a rugged metal housing; dimensions shall be approximately 82 x 64 x 24 mm (3.23" x 2.52" x 0.94"). Weight including the batteries shall be approximately 160 grams (0.35 lbs). Operating temperature shall range from −10 °C to +55 °C (+14 °F to +131 °F).The bodypack transmitter shall be the Sennheiser SK 100 G4.The radio microphone shall be menu-driven with a backlit LC display showing the current frequency, frequency bank and channel number, metering of AF level, transmission status, lock status, pilot tone transmission, muting function, and bat-tery status. An auto-lock feature shall be provided to prevent settings from being accidentally altered.The radio microphone parameters shall either be configurable in the associated receiver’s menu and synchronized with the radio microphone via an integrated infrared interface or shall be programmable in the radio microphone menu. Recei-ver parameters such as receiving frequency, receiver name and pilot tone setting shall be synchronizable with the radio microphone via an integrated infrared interface.The handheld vocal radio microphone shall be equipped with a mute switch, which shall be switchable between “AF on/ off”, “RF on/off” and “Disabled” via the user interface.Nominal/peak deviation shall be ±24 kHz/±48 kHz. Frequency stability shall be ≤ ±15 ppm. RF output power at 50 Ω shall be 30 mW (typical).The radio microphone shall incorporate the Sennheiser HDX compander system and a defeatable pilot tone squelch. Audio frequency response shall range from 80 – 18,000 Hz. Signal-to-noise ratio at 1 mV and peak deviation shall be ≥ 110 dBA. Total harmonic distortion (THD) shall be ≤ 0.9 %. Input sensitivity shall be adjustable within a 48 dB range in steps of 6 dB.Power shall be supplied to the radio microphone by two 1.5 V AA size batteries or by one Sennheiser BA 2015 recharge-able accupack. Nominal voltage shall be 2.4 V, current consumption shall be typical 180 mA at nominal voltage; ≤ 25 μA when radio microphone is switched off. Operating time shall be typical 8 hours. The radio microphone shall have a rugged metal housing; dimensions shall be approximately 50 mm (1.97") in diameter and 265 mm (10.43") in length. Weight inclu-ding the batteries shall be approximately 450 grams (0.99 lbs). Operating temperature shall range from −10 °C to +55 °C (+14 °F to +131 °F).A range of microphone heads shall be available for the radio microphone.The radio microphone shall be the Sennheiser SKM 100-S G4.。

多通道函数信号发生器MFG-2000系列使用手册固纬料号NO.82MF32K000EC1ISO-9001认证企业2015.07本手册所含资料受到版权保护，未经固纬电子实业股份有限公司预先授权，不得将手册内任何章节影印、复制或翻译成其它语言。

本手册所含资料在印制之前已经过校正，但因固纬电子实业股份有限公司不断改善产品，所以保留未来修改产品规格、特性以及保养维修程序的权利，不必事前通知。

固纬电子实业股份有限公司台湾台北县土城市中兴路7-1号目录安全说明 (6)产品介绍 (10)面板介绍 (12)显示 (21)设置信号发生器 (22)快速操作 (24)如何使用数字输入 (26)如何使用帮助菜单 (27)顯示區域的分配 (29)选择波形 (30)调制 (32)扫描 (41)脉冲串 (43)ARB (45)工具栏 (51)菜单树 (52)默认设置 (70)操作 (72)CH1/CH2通道 (74)RF通道 (87)Pulse 通道 (98)功率放大器 (109)调制 (112)3幅值调制 (AM) (115)幅移键控 (ASK) 调制 (122)频率调制 (FM) (128)频移键控 (FSK) 调制 (134)相位(PM)调制 (140)相移键控 (PSK) 调制 (146)脉冲宽度(PWM)调制 (151)总和(SUM)调制 (157)频率扫描 (163)脉冲串模式 (172)辅助系统功能设置 (182)存储和调取 (183)选择远程接 (187)系统和设置 (191)通道功能设置 (195)双通道操作 (199)任意波形 (204)插入内置波形 (205)显示任意波形 (207)编辑任意波形 (214)输出任意波形 (223)存储/调取任意波形 (225)远程接口 (234)确立远程连接 (239)网络浏览器控制界面 (244)指令列表 (252)4状态寄存器指令 (260)接口设置指令 (263)应用指令 (264)输出指令 (270)脉冲设置指令 (279)幅值调制(AM)指令 (283)振幅键控(ASK)指令 (288)频率调制(FM)指令 (292)频移键控(FSK)指令 (297)相位调制(PM)指令 (301)相位键控(PSK)指令 (305)总和调制(SUM)指令 (309)脉宽调制(PWM)指令 (314)频率扫描(Sweep)指令 (319)脉冲串模式(Burst)指令 (329)任意波形(ARB)指令 (340)计频器(Counter)指令 (348)相位 (Phase) 指令 (350)耦合(Couple)指令 (351)存储和调取指令 (354)错误信息 (356)SCPI状态寄存器 (369)附录 MFG-2000系列规格 (375)EC符合性声明书 (385)GLOBL HEADAQARTERS (386)任意波内建波形 (387)索引 (395)56安全说明本章节包含操作和存储信号发生器时必须遵照的重要安全说明。

P/N: 1802002050018*1802002050018*EDS-205 Series Quick Installation GuideMoxa EtherDevice SwitchVersion 7.2, January 2021Technical Support Contact Information/support2021 Moxa Inc. All rights reserved.OverviewThe Moxa, EDS-205 series EtherDevice™ switches are entry-level 5- port Ethernet switches that provide a cost-effective solution for your industrial Ethernet connection.The EDS-205 Series supports DC power input from 12 to 48 V. These switches can operate from -10 to 60o C, and the rugged hardware design makes the EDS-205 switches perfect for ensuring that your Ethernet equipment can be used for demanding industrial applications.NOTE Throughout this Hardware Installation Guide, we use EDS as an abbreviation for Moxa EtherDevice Switch:EDS = Moxa EtherDevice SwitchPackage ChecklistThe Moxa EDS-205 is shipped with the following items. If any of these items is missing or damaged, please contact your customer service representative for assistance.•Moxa EtherDevice™ Switch•Quick installation guide (printed)•Warranty cardPanel Layout of the EDS-205 Series1.Heat dissipation orifices2.Terminal block for power inputand grounding3.Moxa Logo4.Power input LED5.10/100BaseT(X) Port6.TP port’s 100 Mbps LED7.TP port’s 10 Mbps LED8.DIN-rail kitMounting Dimensions (unit = mm)DIN-Rail MountingThe plastic DIN-rail attachment plate should already be fixed to the rear panel of the EDS when you take it out of the box. If you need to reattach the DIN-rail attachment plate, make sure the DIN-rail kit is situated towards the top, as shown in the figures below.STEP 1:Insert the top of the DIN rail into the slot. STEP 2:The DIN-rail attachment unit will snap into place as shown below.To remove Moxa EDS-205 from theDIN rail, insert a flat-blade screwdriver horizontally into the DIN-railkit under the EDS-205, and thenpull it upwards and release the EDStowards you and away from theDIN rail.Or you may take the following steps to remove the EDS-205 from the DIN rail.Step 1:Press the middle of the flat side of the mounting kit as indicated. Pull the EDS-205 downwards. Step 2:Release it towards you and away from the DIN rail.Wiring RequirementsYou should also pay attention to the following points:• Use separate paths to route wiring for power and devices. If powerwiring and device wiring paths must cross, make sure the wires are perpendicular at the intersection point.NOTE: Do not run signal or communications wiring and power wiring in the same wire conduit. To avoid interference, wires with different signal characteristics should be routed separately.• You can use the type of signal transmitted through a wire todetermine which wires should be kept separate. The rule of thumb is that wiring that shares similar electrical characteristics can be bundled together.• Keep input wiring and output wiring separated.•It is strongly advised that you label wiring to all devices in the system when necessary. Grounding the Moxa EtherDevice SwitchGrounding and wire routing help limit the effectsof noise due to electromagnetic interference(EMI). Run the ground connection from the rightmost contact of the 3-contact terminal block to the grounding surface prior to connectingdevices.Wiring the Power InputsThe two left-most contacts of the 3-contact terminal block connector on the EDS’s top panel are used for the DC input. Top and front views of one of the terminal block connectors are shown here.STEP 1:Insert the negative/positive DC wires into theV-/V+ terminals.STEP 2:To keep the DC wires from pulling loose, use asmall flat-blade screwdriver to tighten thewire-clamp screws on the front of the terminalblock connector.STEP 3:Insert the plastic terminal block connector prongsinto the terminal block receptor, which is locatedon the EDS’s top panel.Communication ConnectionsThe EDS-205 has five10/100BaseT(X) Ethernet ports.10/100BaseT(X) Ethernet Port ConnectionThe 10/100BaseT(X) ports located on the EDS switch’s front panel are used to connect to Ethernet-enabled devices.Below we show pinouts for both MDI (NIC-type) ports and MDI-X (HUB/Switch-type) ports, and also show cable wiring diagrams for straight-through and cross-over Ethernet cables.10/100Base T(x) RJ45 Pinouts MDI Port Pinouts MDI-X Port Pinouts 8-pin RJ45Pin Signal1 Tx+2 Tx-3 Rx+6 Rx- Pin Signal 1 Rx+ 2 Rx- 3 Tx+ 6 Tx-RJ45 (8-pin) to RJ45 (8-pin) Straight-Through Cable WiringRJ45 (8-pin) to RJ45 (8-pin) Cross-Over Cable WiringLED IndicatorsThe front panel of the Moxa EtherDevice Switch contains several LED indicators. The function of each LED is described in the table below. LEDColor State Description P AMBER On Power is being supplied to the power input.Off Power is not being supplied to the power input.10M (TP) GREEN On The TP port’s 10 Mbps link is active.Blinking Data is being transmitted at 10 Mbps.Off The TP port’s 10 Mbps link is inactive100M (TP) GREENOn The TP port’s 100 Mbps link is active.Blinking Data is being transmitted at 100 Mbps.Off The 100BaseTX port’s link is inactive. Auto MDI/MDI-X ConnectionThe Auto MDI/MDI-X function allows users to connect the switch’s10/100BaseTX ports to any kind of Ethernet device, regardless of the type of Ethernet cable being used for the connection. This means that you can use either a straight-through or cross-over cable to connect the EDS to your Ethernet devices.Dual Speed Functionality and SwitchingThe switch’s 10/100 Mbps switched RJ45 port auto negotiates with the connected device for the fastest data transmission rate supported by both devices. All models of Moxa EtherDevice Switch are plug-and-playdevices; software configuration is not required at installation, or during maintenance. The half/full duplex mode for the switched RJ45 ports is user dependent and changes (by auto-negotiation) to full or half duplex, depending on which transmission speed is supported by the attached device.Switching, Filtering, and ForwardingEach time a packet arrives at one of the switched ports, a decision is made to either filter or forward the packet. Packets with source and destination addresses belonging to the same port segment will be filtered, constraining those packets to one port, and relieving the rest of the network from the need to process them. A packet with destination address on another port segment will be forwarded to the appropriate port, and will not be sent to the other ports where it is not needed. Packets that are used to maintain the operation of the network (such as the occasional multi-cast packet) are forwarded to all ports. The switch operates in the store-and-forward switching mode, which eliminates bad packets and enables peak performance to be achieved when there is heavy traffic on the network.Switching and Address LearningThe Moxa EtherDevice switch has an address table that can hold up to 1K node addresses, making it suitable for use with large networks. The address tables are self-learning, so that as nodes are added or removed, or moved from one segment to another, the switch automatically adds new node locations to the tables. An address-aging algorithm causes the least-used addresses to be deleted in favor of newer, more frequently used addresses. To reset the address buffer, power down the unit and then power it back up.Auto-Negotiation and Speed SensingAll of the switch’s RJ45 Ethernet ports independently supportauto-negotiation for speeds in the 10BaseT and 100BaseTX modes, with operation according to the IEEE 802.3u standard. This means that some nodes could be operating at 10 Mbps, while at the same time, other nodes are operating at 100 Mbps.Auto-negotiation takes place when an RJ45 cable connection is made, and then each time a LINK is enabled. The Moxa EtherDevice switch advertises its capability for using either 10 Mbps or 100 Mbps transmission speeds, with the device at the other end of the cable expected to similarly advertise. The two devices will agree to operate at either 10 Mbps or 100 Mbps.If a Moxa EtherDevice switch’s RJ45 Ethernet port is connected to a non-negotiating device, it will default to 10 Mbps speed and half-duplex mode, as required by the IEEE 802.3u standard. SpecificationsTechnologyStandards IEEE802.3, 802.3u, 802.3xProcessing Type Store and Forward, with IEEE802.3x fullduplex, non-blocking flow controlAddress Table Size 1K unicast addressesInterfaceRJ45 Ports 10/100BaseT(X) auto negotiation speed, F/Hduplex mode, and auto MDI/MDI-X connection LED Indicators Power, 10/100 MPowerInput Voltage 12 to 48 VDCInput Current 0.12 A @ 24 VPower Consumption 5 WConnection Removable 3-contact terminal block Overload Current1.1 AProtectionPresentReverse PolarityProtectionMechanicalCasing IP30 protection, plastic housing Dimensions 25 x 109 x 88 mmWeight 135 gInstallation DIN-rail mountingEnvironmental LimitsOperating Temperature -10 to 60°C (14 to 140°F)Storage Temperature -40 to 70°C (-40 to 158°F)5 to 95% (non-condensing) Ambient RelativeHumidityRegulatory ApprovalsSafety UL508EMI FCC Part 15, CISPR (EN55032) class A EMS EN61000-4-2 (ESD) , level 2EN61000-4-3 (RS) , level 3EN61000-4-4 (EFT) , level 3EN61000-4-5 (Surge) , level 3EN61000-4-6 (CS) , level 3Shock IEC 60068-2-27Freefall IEC 60068-2-32Vibration IEC 60068-2-6WARRANTYTime Period 5 yearsDetails /warranty。

Mod520C_2P.O. Box 11 03l D-79200 Breisach, Germany Kueferstrasse 8l D-79206 Breisach, Germany (+49 (7667) 908-0 l Fax +49 (7667) 908-200 l e-mail:****************Mod520C_2© Copyright 2004:FS FORTH-SYSTEME GmbHPostfach 1103, D-79200 Breisach a. Rh., GermanyRelease of Document:May 27, 2004Filename:Mod520C_2.docAuthor:Hans-Peter SchneiderAll rights reserved. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of FS FORTH-SYSTEME GmbH.2Mod520C_2 Table of Contents1.Introduction (4)2.Features (5)3.Functional Description (6)3.1.1.CPU AMD ÉlanSC520 (6)3.1.2.SDRAM stage (6)3.1.3.ROM stage (6)3.1.4.SRAM stage (6)3.1.5.32 I/O Ports (7)3.1.6.256 Byte EEPROM for BIOS and Applications on PIO30,31 (7)3.1.7.On-board Power Supply (7)3.1.8.Voltage Supervision, RESET Generation (7)3.1.9.Serial Ports (7)3.1.10.Fast Ethernet Controller Stage (8)3.1.11.Dual CAN Controller Stage (8)3.1.12.GP Bus used for ISA Bus (9)4.Connectors Of MOD520C (10)4.1.System Connector X2 (10)4.2.System Connector X4 (12)5.Application Notes (14)5.1.Power Supply (14)5.2.Important Signals (14)5.2.13.PCICLKRTN PCICLK PCICLKETHER (14)5.2.14.ISA-Bus Signals (14)5.2.15.CAN-Interrupt IRQ11 (15)6.Members of the MOD520C family (16)3Mod520C_21. IntroductionThe module MOD520C with its integrated and optional peripherals, based on the 32 Bit AMD ÉlanSC520 microcontroller, is designed for medium to high performance applications in telecommunication, data communication and information appliances on the general embedded market. It can easily be designed in customized boards.The AMD ÉlanSC520 microcontroller combines a low voltage 586 CPU running on 133 MHz, including FPU (Floating Point Unit) with a set of integrated peripherals: 32 Bit PCI controller, SDRAM controller for up to 256 MByte, GP (General Purpose) bus with programmable timing and ROM/Flash controller. Enhanced PC compatible peripherals like DMA controller, two UARTs and battery buffered RTC and CMOS, watchdog and software timers make this device a very fast system for both real time and PC/AT compatible applications. Insyde Software’s Mobile BIOS is available which offers serial and parallel remote features (video, keyboard, floppy). Furthermore FS FORTH-SYSTEME has adapted Datalight Sockets (TCP/IP Stack), ROM-DOS and the Flash File System FlashFX to this environment.The MOD520C offers the software engineer the possibility to reduce the time-to-market phase even more. FS FORTH-SYSTEME added several features on-board as SDRAM (up to 64 MByte), PCI Fast Ethernet controller to facilitate networking and remote control. A Strata-FLASH for booting and data is included on board. Two CAN Ports are additionally available for communication. 512 Kbyte SRAM is available for battery buffered data. The enhanced JTAG port for low-cost debugging is supported. This allows instruction tracing during execution. FS FORTH-SYSTEME has adapted Windows CE 3.0 to this platform and offers drivers and support. With Ethernet debugging the software designer has powerful means for fast debugging his applications.Due to the 16 MByte FLASH it is possible to build larger, complete systems on this module like Linux, QNX or VxWorks.4Mod520C_252. Features• 16 MByte STRATA-FLASH or 2 MByte AMD FLASH • 64 MByte or 16 MByte SDRAM • 512 KByte battery buffered SRAM• PCI Ethernet controller with EEPROM. Rx and Tx signals are providedon the System Connectors • Two CAN-Buses.• Enhanced JTAG port available on System Connector.• GP-Bus signals available on System Connector • PCI-Bus signals available on System Connector• BIOS for ÉlanSC520 by Insyde Software Inc. Including serial or parallelremote features (Video, Keyboard, Floppy).Mod520C_23. Functional Description3.1.1. CPU AMD ÉlanSC520The CPU AMD ÉlanSC520 is powered with 2.5V (core and analog path) and 3.3V (all other voltages) except VRTC, which is powered with about 3V either from battery or from on-board 3.3V. This voltage is limited to 3.3V, the other 3.3V power planes have a limit of 3.6V.The CPU is clocked with a 32.768 kHz quartz. An internal PLL derives from this frequency the RTC clock and DRAM refresh clock and the clocks for PC/AT compatible PIT (1.1882 MHz) and UARTs (18.432 MHz). All other stages (CPU, PCI, GP bus, GP DMA, ROM, SSI, timers) are fed from the second clock generator driven by a 33.33 MHz clock oscillator. SDRAM is clocked with 66.66 MHz.3.1.2. SDRAM stageThe SDRAM (up to 128 MByte on-board) has its own DRAM bus containing memory addresses MA0..12, memory data MD0..31 and control signals for up to four banks. Due to small load no buffering of clocks and signals is necessary.3.1.3. ROM stageROM or FLASH are driven by the general purpose address bus GPA0..25. It has three programmable chip selects with each up to 64 MByte range. The ROM Data bus is either the 32 bit general purpose bus GPD0..31 or the memory data bus MD0..31. Configuration pins decide, which bus at boot time is used. The bus size is selectable with 8, 16 or 32 bit. The MOD520C has a FLASH IC for up to 16 MByte 16 bit ROM or FLASH selected by BOOTCS# connected to MD0..15. 3.1.4. SRAM stageThe SRAM (512 KByte on-board) is buffered by VBAT. The Memory Location is defined in the System BIOS. ROMCS1# is used to access the SRAM.6Mod520C_23.1.5. 32 I/O PortsThe ÉlanSC520 CPU has 32 I/O ports. They have alternate functions. Most of them are control signals for GP bus (PIO0..26) used as ISA-bus. PIO27 (GPCS0#) is used as a programmable external chip select and PIO28,29 are not connected. PIO30,31 are used to drive a serial parameter EEPROM on-board. 3.1.6. 256 Byte EEPROM for BIOS and Applications on PIO30,31An on-board serial EEPROM with 256 byte and I2C bus is controlled by PIO30 (I2CDAT) and PIO31 (I2CCLK). 128 byte are used for non-volatile BIOS defaults, the remaining range may contain application specific data and parameters. The BIOS contains calls to read and write to this memory (see BIOS documentation).3.1.7. On-board Power SupplyThe 2.5V on-board voltage is generated from +5V.An external battery may be connected to the signal VBATIN. Battery status is controlled by BBATSEN, which sets a power fail bit in a status register for RTC, if BBATSEN is low at power-up.3.1.8. Voltage Supervision, RESET GenerationThree voltages are used on board: +2.5V, +3.3V and +5V. U2 controls +5V and U10 controls +3.3V. LBOUT or PWRGOOD will become low, if these voltages are out of tolerance. An external SRESET# is wired or-ed to U10. It can also be activated from extended JTAG signal SRESET# via X1. The wired OR of 1RESET# and 2RESET# control U10. Its output PWRGOOD is low (not active), if either the signals described above from U10 are low or +5V is out of tolerance. Typical length of PWRGOOD low is longer than 1 sec (minimum 790 msec).3.1.9. Serial PortsThe AMD ÉlanSC520 CPU has two internal asynchronous ports and one synchronous serial port. Both of this ports are available at the System Connectors.7Mod520C_23.1.10. Fast Ethernet Controller StageConnected to the PCI bus device 0 (REQ/GNT0#) of the Élan SC520 CPU, a Fast Ethernet Controller U7 supports 10/100Mbps transfer depending on driver software. X3 is a JST B5B-PH-SM3 5 pin connector. Parameters as physical address and power down modes are stored in a 64X16 bit Serial EEPROM controlled by U7. 2 status LEDs LE1, LE2 show the state of the Ethernet connection. For a more detailed hardware and software description see Intel 82559ER manual.3.1.11. Dual CAN Controller StageThe CAN Controller is selected via ROMCS1# and the Memory location is selectable in the BIOS Setup Screen. The CAN Interrupt provided by 82C900 is inverted by the onboard Lattice CPLD. Since the Interrupt asserted by the 82C900 is only a low active pulse of 0.2µs the CPLD holds the interrupt active until the software accesses the Memory at the location CAN-Base+1xxh. The BIOS routes this interrupt to IRQ11.8Mod520C_2 3.1.12. GP Bus used for ISA BusThe AMD ÉlanSC520 CPU contains an 8/16bit General Purpose Bus (GP bus) with 26 address lines (GPA0..25), 16 data lines (GPD0..15) and different control lines using PIO ports in their alternate GP bus function. Its timing is programmable for speeds up to 33MHz. This bus is to emulate a 16 bit ISA bus (PC/104) running with 8 MHz. ISA bus signal are connected without buffers directly to the lines of the CPU due to the 5V tolerance of the 3.3V signals.8 bit signals SMEMRD# and SMEMWR# (active only at addresses beyond 1 MByte) are not supported (GPMEM_RD# and GPMEM_WR# used).The AMD ÉlanSC520 CPU has only 4 DMA channels on GP bus. DMA channel 2 is used for Super-I/O (U2) on EVAMOD520. All four channels are connected to edge connector X2.Not supported ISA bus signals 0WS#, IOCHK#, IRQ15, REFRESH#, 8MHz and 14.318 MHz clocks, MASTER#.9Mod520C_24. Connectors Of MOD520C4.1. System Connector X2Pin Function I/O Pin Function I/O1+3.3V power2GND power 3+3.3V power4GND power 5GPD0I/O6TDP O7GPD1I/O8TDN O9GPD2I/O10not connected11GPD3I/O12RDP I13GPD4I/O14RDN I15GPD5I/O16not connected17GPD6I/O18DRQ0I19GPD7I/O20DRQ2I21GPD8I/O22DRQ5I23GPD9I/O24DRQ7I25GPD10I/O26DACK0#O27GPD11I/O28DACK2#O29GPD12I/O30DACK5#O31GPD13I/O32DACK7#O33GPD14I/O34GND power 35GPD15I/O36GPRESET O37GND power38GPIORD#O39GPA0O40GPIOWR#O41GPA1O42GPALE O43GPA2O44GPBHE#O45GPA3O46GPRDY I47GPA4O48GPAEN O49GPA5O50GPTC O51GPA6O52GPDBUFOE#O53GPA7O54GPIO_CS16#O55GPA8O56GPMEM_CS16#O57GPA9O58GPCS0#O59GPA10O60GPMEM_RD#O61GPA11O62GPMEM_WR#O63GPA12O64GND power 10Pin Function I/O Pin Function I/O65GPA13O66EXTRES#I67GPA14O68PWRGOOD O69BUFA15O70CLKTEST71BUFA16O72PRG_RESET73BUFA17O74GND power75BUFA18O76GPCS1#O77BUFA19O78GPCS2#O79BUFA20O80GPCS3#O81BUFA21O82GPCS4#O83BUFA22O84GPCS5#O85BUFA23O86GPCS6#O87BUFA24O88GPCS7#O89BUFA25O90VBATIN power91GND power92GND power93IRQ1I94RSTLD0I95IRQ3I96RSTLD1I97IRQ4I98RSTLD2I99IRQ5I100RSTLD3I101IRQ6I102RSTLD4I103IRQ7I104RSTLD5I105IRQ9I106RSTLD6I107IRQ10I108RSTLD7I109CANINT I110DBGDIS I111IRQ12I112INSTRC I113IRQ14I114DBGENTR I115SPEAKER O116not connected117+5V power118GND power119+5V power120GND power114.2. System Connector X4Pin Function I/O Pin Function I/O1PCICLKRTN I2GND power 3PCICLK O4PCICLKETHER I5AD0I/O6CBE0#I/O7AD1I/O8CBE1#I/O9AD2I/O10CBE2#I/O11AD3I/O12CBE3#I/O13AD4I/O14not connected15AD5I/O16not connected17AD6I/O18not connected19AD7I/O20not connected21AD8I/O22GND power 23AD9I/O24RXD1I25AD10I/O26TXD1O27AD11I/O28CTS1#I29AD12I/O30DCD1#I31AD13I/O32DSR1#I33AD14I/O34RIN1#I35AD15I/O36DTR1#O37AD16I/O38RTS1#O39AD17I/O40RXD2I41AD18I/O42TXD2O43AD19I/O44CTS2#I45AD20I/O46DCD2#I47AD21I/O48DSR2#I49AD22I/O50RIN2#I51AD23I/O52DTR2#O53AD24I/O54RTS2#O55AD25I/O56CANH1/TXD157AD26I/O58CANL1/RXD159AD27I/O60CANH2/TXD261AD28I/O62CANL2/RXD263AD29I/O64GND power 12Pin Function I/O Pin Function I/O65AD30I/O66SRESET#I67AD31I/O68GPRESET#O69GND power70TCK O71INTA#I72TMS73INTB#I74TDI I75INTC#I76TDO O77INTD#I78TRST#I79REQ0#I80CMDACK81REQ1#I82BR/TC83REQ2#I84GND Power85REQ3#I86STOP/TX87REQ4#I88TRIG/TRACE89GNT0#O90not connected91GNT1#O92ACTLED#O93GNT2#O94LILED#O95GNT3#O96SPEEDLED#O97GNT4#O98not connected99GND power100GND power101PAR I/O102SSI_CLK O103PERR#I/O104SSI_DO O105SERR#I106SSI_DI I107FRAME#I/O108not connected109TRDY#I/O110ISP_TDI I111IRDY#I/O112ISP_TDO O113STOP#I/O114ISP_TMS115DEVSEL#I/O116ISP_TCK I117RST#O118BSCAN#119GND power120GND power135. Application Notes5.1. Power SupplyThe MOD520C needs +3.3V and 5V power supply.3.3V worst case supply current is 1130 mA5V worst case supply current is 550 mABe sure to design your power supply for this current including large load transients.5.2. Important Signals5.2.13. PCICLKRTN PCICLK PCICLKETHERPCICLK is the clock source for the PCI-Bus. PCICLKETHER is the clock input for the Ethernet Controller. PCICLKRTN is the clock input of the AMD Élan Sc520. This pin is used to synchronize the CPU with the external PCI-Bus. Therefore it is important that all clock traces have the same length to provide each PCI-Target with the clock at the same time. Trace length of each of this clocks is 68mm on the module. If you do not plan to connect an additional PCI-Target on your board you just add a serial resistor 33R between PCICLK and PCICLKRTN and one between PCICLK and PCICLKETHER.5.2.14. ISA-Bus SignalsIf you use the ISA-Bus Signals you have to add some resistors to the following Signals:GPD0 – GPD15 4k7 pull upGPRDY1k pull downIRQ´s10k pull upDRQ´s10k pull down145.2.15. CAN-Interrupt IRQ11IRQ11 is used for the CAN-Controller 82C900 and is not sharable. Since the interrupt provided by 82C900 is a low active pulse with a length of 0.2µs the CPLD inverts this signal and holds it until the software acknowledges the interrupt. To acknowledge this interrupt the software has to access a memory location with the offset 1xxh to the CAN-Base. This memory access is just an access of the system memory, not an access of the CAN-Controller.156. Members of the MOD520C familyNumbe r Variant Flash SDRAM SRAM CAN CAN-DriverTemp.320MOD520C_0_V018M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519512k*8Yes Yes0..70°321MOD520C_0_V021M*16, AMD(=2 Mbyte)1*TM015202*4M*16(=16 Mbyte)2*TM01519512k*8Yes Yes0..70°322MOD520C_0_V038M*16, Strata(=16 Mbyte)1*TM014452*16M*16(=64 Mbyte)2*TM01249512k*8Yes Yes0..70°334MOD520C_1_V01MOD520C_2_V018M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519512k*8TM0Yes no0..70°335MOD520C_1_V02MOD520C_2_V021M*16, AMD(=2 Mbyte)1*TM015202*4M*16(=16 Mbyte)2*TM01519512k*8TM0Yes no0..70°336MOD520C_1_V03MOD520C_2_V038M*16, Strata(=16 Mbyte)1*TM014452*16M*16(=64 Mbyte)2*TM01249512k*8TM0Yes no0..70°184MOD520C_1_V048M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519No No No0..70°16。

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CA-110E的識別牌位於底部。

2使用地區LEGRIA HF M52符合(截至2012年1月)以下所列地區的無線電信號法規。

地區澳大利亞、奧地利、比利時、保加利亞、賽普勒斯、捷克共和國、丹麥、愛沙尼亞、芬蘭、法國*、德國、希臘、中國香港特別行政區、匈牙利、冰島、愛爾蘭、義大利、拉脫維亞、列支敦斯登、立陶宛、盧森堡、馬爾他、荷蘭、紐西蘭、挪威、波蘭、葡萄牙、羅馬尼亞、俄羅斯、新加坡、斯洛伐克、斯洛維尼亞、西班牙、瑞典、瑞士、英國*法國：禁止戶外使用。

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