M5M5256CVP-55LL中文资料

PMC-550M低压电动机保护控制器用户手册（V1.5）深圳市中电电力技术有限公司本说明书版权属深圳市中电电力技术有限公司所有，未经书面许可，不得复制，传播或使用本文件及其内容，违犯者将要对损坏负责。

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目录1 装置简介 (1)1.1 概述 (1)1.2 产品特点 (1)2 技术指标 (2)2.1 环境条件 (2)2.2 额定参数 (3)2.3 测量范围及准确度 (4)2.4 保护定值误差 (4)2.5 保护参数表 (5)2.6 电气绝缘性能 (6)2.7 机械性能 (7)2.8 电磁兼容性能 (7)3 功能说明 (8)3.1 保护功能 (8)3.1.1 ........................... 起动超时保护9 3.1.2 ............................... 堵转保护9 3.1.3 ......................... 反时限过热保护103.1.4 ............................ TE时间保护113.1.5 ......................... 电流不平衡保护123.1.6 ............................... 缺相保护133.1.7 ............................. 欠功率保护133.1.8 ........................... 工艺联锁保护133.1.9 ....................... 定时限过电流保护133.1.10短路保护 (14)3.1.11 .............................. 接地保护143.1.12剩余电流保护 (14)3.1.13接触器分断能力保护 (14)3.1.14联动出口 (15)3.2 失压再起动功能 (15)3.3 降压起动控制 (16)3.4 正反转控制功能 (16)3.5 直接起动控制功能 (17)3.6 AO输出功能 (17)3.7 装置自检功能 (17)3.8 电动机维护管理功能 (18)3.9 测量功能 (18)3.10 开入/开出功能 (18)3.11 通信功能 (20)3.12 电动机控制权限 (20)4 典型接线 (21)5 安装和使用 (23)5.1 安装 (23)5.1.1 ................................... 环境235.1.2 ............................... 安装尺寸235.2 端子接线 (28)5.2.1 ............................... 工作电源295.2.2 ........................... 接地线的连接295.2.3 ....................... 电压电流输入接线295.3 按键操作 (30)5.4 指示灯 (31)5.5 显示内容说明 (31)5.5.1 ........................... 段码显示说明315.5.2 ........................... 中文显示说明425.6 保护功能使用说明 (51)5.6.1 ........................... 保护参数整定515.6.2 ................. 反时限保护动作特性速查525.6.3 ..................... 电动机额定电流速查535.7 装置故障分析 (53)6 订货需知 (54)6.1 装置订货参数选择 (54)6.2 售后服务承诺 (55)6.2.1 ............................... 质量保证556.2.2 ............................... 软件升级566.2.3 ............................... 质保限制567 手册变更记录 (58)1装置简介1.1概述PMC-550M低压电动机保护控制器是在吸收国内外先进技术的基础上自主研发的电动机保护控制装置。

BUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITORDISCRIPTIONM52746SP is Semiconductor Integrated Circuit for CRT Display Monitor.It includes OSD Blanking,OSD Mixing,Retrace Blanking,Wide Band Amplifre,Brightness Control.Main/Sub Contrast and OSD AdjustFunction can be controlled by I2C Bus.OSD 80 MHz Input : RGB 0.7 Vp-p (Typ)OSD light 4 Vp-p minimum (positive) OSD harf 2.5Vp-p minimum (positive) 3.0Vp-p maximum (positive) BLK(for OSD) 3 Vp-p minimum (positive) Retrace BLK 3 Vp-p minimum (positive) Output : RGB 5.5 Vp-p (maximum) OSD 5 Vp-p (maximum)Bus.STRUCTUREBipola Silicon Monolisic ICAPPLICATIONCRT Display MonitorRECOMMENDED OPERATING CONDITIONSSupply Voltage Range 11.5V~12.5V(V7,V12,V25,V29,V32) 4.5V~4.4V(V17)Rated Supply Voltage 12.0V(V7,V12,V25,V29,V32) 5.0V(V17)MAJOR SPECIFICATIONBus Controlled 3ch Video Pre-Amp with OSD Mixing FunctionFEATURESBUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITORAbsolute Maximum Rating (Ambient temperature: 25 C)0200016001200800400-202550751001251502400280023581415Thermal Derating CurveAmbient temperature Ta( C)BUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITOR Fig. 1Block DiagramBUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITOR(1) Slave address:(2) Each function's sub address:BUS CONTROL TABLED7D6D5D4D3D2D1R/W10001000=88HNO.function bit subadd.D7D6D5D4D3D2D1D01Main contrast 801H A07A06A05A04A03A02A01A00010000002Sub contrast R 802H A17A16A15A14A13A12A11A10100000003Sub contrast G 803H A27A26A25A24A23A22A21A20100000004Sub contrast B 804HA37A36A35A34A33A32A31A30100000005OSD level4----A43A42A41A400100H Data Byte(up:bit information down:preset)BUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITORSDASCLV ILV IHV ILV IHI C BUS CONTROL SECTION2Note1) Measuring conditions are as listed in supplementary Table. Measured with a current meter at test point IA.Note2) Measuring conditions are as listed in supplementary Table. Measured with a current meter at test point IB.Note3) Decrease V1 gradually, and measure the voltage when the bottom of waveform output is distorted. The voltage is called VCL.Next, increase V1 gradually, and measure the voltage when the top of waveform output is distorted. The voltage is called VOH.Voltagr Vomax is calculated by the equation below:Vomax = VOH - VOLNote4) Increase the input signal(SG2) amplitude gradually, starting from 700mVp-p. Measure the amplitude of the input signal when the output signal starts becoming distorted.Note5) Input SG1, and read the amplitude output at OUT(24,28,31). The amplitude is called VOUT(24,28,31).Maximum gain GV is calculated by the equation below:Note6) Relative maximum gain GV is calculated by the equation below:GV=VOUT(24)/VOUT(18), VOUT(28)/VOUT(31), VOUT(31)/VOUT(24)Note7) Measuring the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31).Main contrast conrol characteristics VC1 is calculated by the equation below:Note8) Relative characteristics VC1 is calculated by the equation below:VC1=VOUT(24)/VOUT(28) , VOUT(28)/VOUT(31) , VOUT(31)/VOUT(24)Note9) Measuring condition and procedure are the same as described in Note7.Note10) Measuring condition and procedure are the same as described in Note8.Note11) Measuring condition and procedure are the same as described in Note7.Note12) Measuring condition and procedure are the same as described in Note8.VOUT 0.7GV=20 LOG(dB)VOUT0.7VC1=20 LOG(dB)Waveform output0.0(V)5.0VOH VOLNote13) Measure the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31).Sub contrast conrol characteristics VSC1 is calculated by the equation below:Note14) Relative characteristics VSC1 is calculated by the equation below:VSC1=VOUT(24)/VOUT(28) , VOUT(28)/VOUT(31) , VOUT(31)/VOUT(24)Note15) Measuring condition and procedure are the same as described in Note13.Note16) Measuring condition and procedure are the same as described in Note14.Note17) Measuring condition and procedure are the same as described in Note13.Note18) Measuring condition and procedure are the same as described in Note14.Note19) Measure the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31).Main/Sub contrast conrol characteristics VMSC1 is calculated by the equation below:Note20) Relative characteristics VMSC1 is calculated by the equation below:VMSC=VOUT(24)/VOUT(28) , VOUT(28)/VOUT(31) , VOUT(31)/VOUT(24)Note21) Measure the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31), and is ttreated as ABL1.Note22) Relative characteristics ABL1 is calculated by the equation below:ABL1=VOUT(24)/VOUT(28) , VOUT(28)/VOUT(31) , VOUT(31)/VOUT(24)Note23) Measuring condition and procedure are the same as described in Note21.Note24) Measuring condition and procedure are the same as described in Note22.Note25) Measure the DC voltage at OUT(24,28,31) with a voltmeter. The measured value is called VOUT(24,28,31), and is ttreated as VB1.Note26) Relative characteristics VB1 is calculated by the difference in the output between the channels.VB1=VOUT(24)-VOUT(28) , VOUT(28)-VOUT(31) , VOUT(31)-VOUT(24)Note27) Measuring condition and procedure are the same as described in Note25.Note28) Measuring condition and procedure are the same as described in Note26.Note29) Measuring condition and procedure are the same as described in Note25.Note30) Measuring condition and procedure are the same as described in Note26.VOUT0.7VSC1=20 LOG (dB)VOUT0.7VMSC1=20 LOG (dB)Note31) First, SG3 to 1MHz is as input signal. Input a resister that is about 2K to offer the voltage at input pins(6,9,11) in order that the bottom of input signal is 2.5V.Control the main contrast in order that the amplitude of sine wave output is 4.0Vp-p. Control the brightness in order that the bottom of sine wave output is 2.0Vp-p.By the same way, measure the output amplitude when SG3 to 50MHz is as input signal. The measured value is called VOUT(24,28,31).Frequency characteristics FC1(24,28,31) is calculated by the equation below:Note32) Relative characteristics FC1 is calculated by the difference in the output between the channels.Note33) Measuring condition and procedure are the same as described in Note31,expect SG3 to 200MHz.Note34) Relative characteristicsFC1' is calculated by the difference in the output between the channels.Note35) SG3 to 1MHz is as input signal. Control the main contrast in order that the amplitude of sine wave output is 1.0Vp-p.By the same way, measure the output amplitude when SG3 to200MHz is as input signal. The measured value is called VOUT(24,28,31).Frequency characteristics FC2(24,28,31) is calculated by the equation below:Note36) Relative characteristics FC2 is calculated by the difference in the output between the channels.Note37) Input SG3 (50MHz) to pin2 only, and then measure the waveform amplitude output at OUT(24,28,31).The measured value is called VOUT(24,28,31). Crosstalk CT1 is calculated by the equation below:Note38) Measuring condition and procedure are the same as described in Note37,expect SG3 to 200MHz.Note39) Input SG3 (50MHz) to pin6 only, and then measure the waveform amplitude output at OUT(24,28,31).The measured value is called VOUT(24,28,31). Crosstalk CT2 is calculated by the equation below:Note40) Measuring condition and procedure are the same as described in Note39,expect SG3 to 200MHz.Note41) Input SG3 (50MHz) to pin11 only, and then measure the waveform amplitude output at OUT(24,28,31).The measured value is called VOUT(24,28,31). Crosstalk CT2 is calculated by the equation below:Note42) Measuring condition and procedure are the same as described in Note41,expect SG3 to 200MHz.VOUT(24,28)CT1=20 LOG(dB)VOUT(31)VOUT(24,31)CT2=20 LOG(dB)VOUT(28)VOUT(28,31)CT3=20 LOG(dB)VOUT(24)VOUT Vp-pFC1=20 LOG(dB)output amplitude when inputed SG3(1MHz) : 4.0Vp-pVOUT Vp-pFC2=20 LOG(dB)output amplitude when inputed SG3(1MHz) : 4.0Vp-pNote43) Control the main contrast (00H) in order that the amplitude of output signal is 4.0Vp-p. Control the brightness (V1) in order that the Black level of output signal is 2.0V.Measure the time needed for the input pulse to rise from 10 % to 90 % (Tr1) and for the outputpulse to rise from 10 % to 90 % (Tr2) with an active prove. Pulse characteristics Tr is calculated by the equations below :Note44) Measure the time needed for the input pulseto fall from 90 % to 10 % (Tf1) and for the outputpulse to fall from 90 % to 10 % (Tf2) with an active prove. Pulse characteristics Tf is calculated by the equations below :Note45) Turn down the SG5 input level gradually from 5.0Vp-p, monitoring the waveform output. Measure the top level of input pulse when the output pedestal voltage turn decrease with unstable.Note46) Decrease the SG5 pulse width gradually from 0.5us, monitoring the output. Measure the SG5 pulse width (a point of 1.5V) when the output pedestal voltage turn decrease with unstable.Note47) Measure the pedestal voltage at 25 C. The measured value is called PDC1.Measure the pedestal voltage at temperature of -20 C. The measured value is called PDC2.Pedestal voltage temperature characteristics 1 is calculated by the equation below: PDCH=PDC1-PDC2Note48) Measure the pedestal voltage at 25 C. The measured value is called PDC1.Measure the pedestal voltage at temperature of 75 C. The measured value is called PDC3. Pedestal voltage temperature characteristics 2 is calculated by the equation below: PDCL=PDC1-PDC3or Tr2or Tf2Note49) Measure the time needed for the output pulse to rise from 10% to 90%(OTR) with an active prove.Note50) Measure the time needed for the output pulse to fall from 90% to 10% (OTF) with an active prove.Note51) Measure the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31),and is treated as Oaj1.Note52) Relative characteristics Oaj1 is calculated by the equation below:Oaj1=VOUT(24)/VOUT(28), VOUT(28)/VOUT(31), VOUT(31)/VOUT(24)Note53) Measuring condition and procedure are the same as described in Note51.Note54) Measuring condition and procedure are the same as described in Note52.Note55) Measuring condition and procedure are the same as described in Note51.Note56) Measuring condition and procedure are the same as described in Note52.Note57) Reduce the SG6 input level gradually, monitoring output.Measure the SG6 level when the output reaches 65~75% of first voltage. The measured value iscalled VthOSD1.Note58) Reduce the SG6 input level gradually, monitoring output.Measure the SG6 level when the output reaches 0V. The measured value is called VthOSD2. Note59) Confirm that output signal is being blanked by the SG6 at the time.Monitoring to output signal, decreasing the level of SG6. Measure the top level of SG6 when theblanking period is disappeared. The measured value is called VthBLK.Note60) Measure the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31),and is treated as Ohaj1.Note61) Measure the amplitude output at OUT(24,28,31). The measured value is called VOUT(24,28,31),and is treated as Ohaj2.Note62) Confirm that output signal is being blanked by the SG7 at the time.Monitoring to output signal, decreasing the level of SG7. Measure the top level of SG7 when theblanking period is disappeared. The measured value is called VthRET.Note63) The sync's amplitude of SG4 be changed all white into all black, increase from 0Vp-p to 0.03Vp-p. No pulse output permitted.Note64) The sync's amplitude of SG4 be changed all white or all black, decrease from 0.3Vp-p to 0.2Vp-p. Confirm no malfunction produced by noise.Note65) Measure the high voltage at SyncOUT. The measured value is treated as VSH.Note66) Measure the low voltage at SyncOUT. The measured value is treated as VSL.Note67) SyncOUT becomes High with sink part of SG4.Measure the time needed for the rear edge of SG4 sink to fall from 50 % and for SyncOUT to rise from 50 % with an active prove. The measured value is treated as TDS-F ,less than 90nsec.Note68) Measure the time needed for the rear edge of SG4 sink to rise from 50 % and for SyncOUT to fall from 50 % with an active prove. The measured value is treated as TDS-R ,less than 90nsec.Note69) No input at the Vcc of 12V when same condition by Note2 . Measure the AC current at Vcc(5V). The measured value is treated as Iccps.Note70) The Vcc of 12V be changed all white into all black, increase from 12V to 0V. Measure the DC voltage at the Vcc When no output signal at R, G and Bout. The measured value is treated as skv.SG4BUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITOR*)f=30KHzBUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITOR TEST CIRCUITTerminal DescriptionBUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITORElectrical ChracteristicsMain Contrast Control Characteristics024600HFFHMain Contrast Control DataDC )02465812INBUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITORNotice of applicationMake the nearest distance between output pin and pull down resister.Recommended pedestal voltage of IC output signal is 2V.CLAMP PULSE INPUTClamp pulse width is recommended above 15 KHz, 1.0 usec above 30 KHz, 0.5 usec above 64 KHz, 0.3 usec .The clamp pulse circuit in ordinary set is a long round about way, and beside high voltage, sometimesconnected to external terminal, it is very easy affected by large surge.Therefore, the Fig. shown right is recommended.Application Method for M52746SPBUS CONTROLLED 3CH VIDEO PRE-AMP FOR CRT DISPLAY MONITORAPPLICATION EXAMPLEINPUT (R)110V12VOSD IN (B)BLK IN (for OSD)INPUT (B)OSD IN (G)OSD IN (R)INPUT (G)DAC IC。

TOUGHBOOK 55—ACCESSORY AND SERVICE GUIDEPANASONIC EXPANSION AREAS & xPAKsLeft Expansion AreaBarcode Reader xPAK Insertable Smart Card xPAK2nd SSD Drive xPAKF Z-VBR551M FZ-VSC552WF Z-VSD55152W (512GB OPAL) FZ-VSD551T2W (1TB OPAL)DVD Drive xPAK Blu-ray Drive xPAK FZ-VDM551W F Z-VBD551WRight Expansion AreaFingerprint (MSFT SC-PC) xPAK Fingerprint (Active Dir) xPAK Contactless Smart Card xPAK FZ-VFP551WFZ-VFP552MFZ-VNF551WInsertable Smart Card xPAK 2nd Battery FZ-VSC551W FZ-VZSU1HURear Expansion AreaVGA + Serial (true) + USB-A xPAK VGA + Serial (true) + LAN xPAKVGA + Serial + Fischer USB FZ-VCN551W FZ-VCN552WFZ-VCN553WPanasonic Main Storage512GB CAGED OPAL SSD FZ-VSDR55N5W 1TB CAGED OPAL SSD FZ-VSDR55NTW 2TB CAGED OPAL SSD FZ-VSDR55NBW (Not compatible with mk1)Panasonic Memory (RAM)16GB DDR4-3200MHz FZ-BAZ201632GB DDR4-3200MHz FZ-BAZ2032 (Not compatible with mk1)POWERPanasonic Standard BatteryFZ-VZSU1HUPanasonic 4-bay Battery ChargerFZ-VCB551MPanasonic AC Adapter 110WCF-AA5713A2MLIND Car Charger 120WCF-LNDDC120DESKTOP DOCKSPanasonic 55 Desktop DockFZ-VEB551UUSB-A (4), Serial, Ethernet, HDMI (2), VGA, Kensington lock, power buttonPanasonic 54/55 Desktop DockCF-VEB541AUUSB-A (4), Serial, Ethernet, HDMI, VGA, Kensington lock, power buttonVEHICLE DOCKSGamber-Johnson 54/55 Vehicle Dock7160-0578-00 Cradle (no electronics)GJ-55LVDLT0 Lite Dock (no pass through)GJ-55LVDLT2 Lite Dock (dual pass through)7160-0577-00-P Premium Dock (no pass through)7160-0577-02-P Premium Dock (dual pass through)Lite Dock: USB-A (2), Serial, EthernetPremium Dock: USB-A (2), Serial, Ethernet, HDMI, VGA(Versions w/LIND power supplies are available as well as TrimLine docks — consult your Panasonic representative for details) Havis Vehicle 54/55 DockHA-55LVC Cradle (no electronics)HA-55LVDLT0 Lite Dock (no pass through)HA-55LVDLT2 Lite Dock (dual pass through)HA-55LVD0 Premium Dock (no pass through)HA-55LVD2 Premium Dock (dual pass through)Lite Dock: USB-A (2), Serial, EthernetPremium Dock: USB-A (2), Serial, Ethernet, HDMI, VGA(Versions w/LIND power supplies are available — consult your Panasonic representative for details)KEYBOARDPanasonic Emissive Backlit Keyboard (US)FZ-VKB55107UWIRELESSAirgain Single LTE & Dedicated GPS Antenna Kit Threaded Black MountAI-2CLSFBLAirgain Dual LTE & WWAN-GPS Antenna Kit Threaded Black MountAI-3MDCBL19Cradlepoint R1900 Router Bundle(Includes Router, 3 Year NetCloud Mobile Essentials + Advanced Plan) 5G Sub6 & 4G, GPS, Wi-Fi 6, Bluetooth 5.1, Ethernet CP-UNR1900EA3YPRINTERSBrother RuggedJet 4230BL Printer Bundle (Includes printer, USB cable & wiring harness)203dpi, up to 5ips, USB or Bluetooth, IP54, 6’ Drop BR-RJ42BD2YBrother PocketJet 763 Printer Bundle(Includes printer, USB cable & wiring harness)300dpi, up to 8ppm, USB or BluetoothBR-PJ763D1Y14WSTRAPS & CASESToughMate Carrying CaseTBCCOMUNV-PToughMate BackpackTBCBPK-POTHERPanasonic Stylus PenFZ-VNP551U(Compatible on touchscreen models only)Panasonic TetherFZ-VNT005UPanasonic Blue Cleaning ClothCF-VNC002UPanasonic Screen ProtectorCF-VPF29UPanasonic Screw SetFZ-VSW551UBag of 14 interchangeable screws (mix of black and silver). Can be used as replacements for keyboard screws, RAM, certain xPAK’s which require screws, or as an optional locking screw for the other xPAK’s and the main SSD.PROFESSIONAL SERVICESIf you’re a mobile worker in a demanding profession, workdays can be hectic, to say the least. It’s often just you and your mobile computer on the front lines, wherever the job takes you. You need to know that you’ll always have the tools you need to do your job.Thousands of organizations choose Panasonic for their employees who work in unforgiving environments. We’ve been making rock-solid mobile computing products for over 25 years and are constantly pushing rugged computing forward. TOUGHBOOK family of computers boast industry-leading low product-failure rates. So it’s no wonder we’ve become the longest-running rugged computer supplier for the U.S. government, law enforcement, utility, and public safety agencies. But even with the toughest tools, work life can be a bit unpredictable. Make sure your workers can always depend on their TOUGHBOOK devices by augmenting them with Panasonic ProServices — Development, Deployment, andSustainment services that support and augment your IT and field staffs to speed deployments and improve performance of you Panasonic technology investments.Our Standard Warranty protects your TOUGHBOOK computers from manufacturing defects for three years and includes overnight shipping costs to and from our Service Center, as well as priority parts exchange program and repair service at no cost. It provides lifetime access to our U.S.-based technical support hotline (which has average hold times less than 1 minute); online access to drivers, first-aid disks, BIOS updates, tools, utilities, and manuals; free overnight delivery of customer replaceable parts and repaired units (85% of repairs are completed within just 48 hours); and access to Panasonic field service personnel.For those customers who’s environmental conditions require a higher level of accidental damage coverage, Panasonic offers our Ultimate Care warranty program. This “No-Fault” warranty coverage means just that — You break it and we fix it.Panasonic recognizes that one size does not fit all and each customer has a unique set of skills and needs. As such, Panasonic ProServices can offer each customer the right solution to best suit their particular situation. Here are some of the most popular items, but please contact your Panasonic representative or go to the ProServices website for more services and information.DEPLOYMENT BUNDLES48 Hr. Burn-in, Imaging, Asset Tagging, Shipping, Deployment Report, Disk Image Management (Image Management not included in Bronze).APOS: After Point of SaleBRONZE Package: Includes installation of battery/tether/stylus/supplied asset tags, logo badges (purchased separately), and cases or holders which ship in the TOUGHBOOK OEM packaging. Customer image validation, loading of customer image, application of service updates and engineering changes, inclusion of customer documentation and custom box labels, and application of customer BIOS/CMOS settings and single location ground shipping with deployment reporting.PREMIER Package: Includes all the above deliverables, as well as post image configuration services (5 minutes). Over packing for small shipments, expedited deployment, 48 hour burn in, multiple ship to locations, multiple shipping dates, disk image management for the term of the services with multiple image retention and customer portal access. The Panasonic Customer Portal allows for online access to create RMAs and check entitlement status • Bronze (One Time) CF-SVCPDBRZ • Premier Deployment 3 Year CF-SVCPDEP3Y • Premier Deployment 4 Year CF-SVCPDEP4Y • Premier Deployment 5 Year CF-SVCPDEP5Y • Premier Deployment APOS 4th Year CF-S09SLCY4AP • Premier Deployment APOS 4 & 5th Year CF-S09SLCY5AP • 3 Month Device Storage CF-SVCPDSSTOR • Kitting with Deployment (up to 4 items) CF-SVCPDKITTING• Extended Configuration (15 minutes) CF-SVCPDADD • Customer Portal Access CF-SVCCUPORT • OEM Volume License Conversion CF-SVCLICCONV(Converting the MS Windows OEM license allows the application of a client GOLD image at the National Service Center)• Windows Autopilot Registration CF-SVCPDAPUPLD • Windows Autopilot Reg & Maintenance CF-SVCPDAPUPMNT • Windows Autopilot Provisioning Services CF-SVCFESAPDEVBIOS CUSTOMIZATIONBIOS settings can be customized to show client logo on bootup or configured to restrict access, enable or disable audio or wireless capabilities as well as restricting media components such as card readers, secure digital flash, fingerprint readers, Bluetooth etc. There is a minimum of 50 units for the BIOS configuration service.• BIOS Custom Splash Screen and/or Configuration CF-SVCBIOS1ULTIMATE CARE PROGRAMThis coverage provides truly comprehensive coverage for out of warranty repairs. That’s right, no cap and no out of warranty billing for accidental damage for the term of coverage. Even items like intentional damage, fire, flood, hurricane, tornado, loss and theft (reported) are covered up to 2% of the deployment.• 3 Year CF-SVCLTUCNF3YR • 4 Year CF-SVCLTUCNF4Y • 5 Year CF-SVCLTUCNF5Y• 3 Year (Federal Specific) CF-SVCLTUCDOD3Y • 4 Year (Federal Specific) CF-SVCLTUCDOD4Y • 5 Year (Federal Specific) CF-SVCLTUCDOD5Y • APOS 4th Year CF-SVCLTUCAPOSY4• APOS 5th Year CF-SVCLTUCAPOSY5• APOS 4 & 5th Year CF-SVCLTUCAPOS2YAPOS: After Point of SalePROTECTION PLUSAccidental Damage Coverage. Any unit for which the Panasonic “Protection Plus” warranty has been purchased will receive additional coverage for any failure that occurs due to accidental damage.• 3 Year CF-SVCLTNF3YR • 4 Year CF-SVCLTNF4Y• 5 Year CF-SVCLTNF5Y • 3 Year (Federal Specific) CF-SVCLTNFDOD3Y • 4 Year (Federal Specific) CF-SVCLTNFDOD4Y • 5 Year (Federal Specific) CF-SVCLTNFDOD5Y • APOS 4th Year CF-SVCLTNFAPOS1Y • APOS 5th Year CF-SVCLTNFAPOSY5• APOS 4 & 5th Year CF-SVCLTNFAPOS2YAPOS: After Point of SaleADVANCED EXCHANGE XPAK PROGRAMThis coverage is included at no cost with the Ultimate Care and Protection Plus warranty programs, or can be purchased separately with the below SKU’s. This allows advance replacement of xPAK’s in the event there is a failure in the field. Overnight air replacement is paid for by Panasonic, as well as a prepaid return air shipping label for the convenienceof our customers.• 3 Year CF-SVCLTAEX3Y • 4 Year CF-SVCLTAEX4Y • 5 Year CF-SVCLTAEX5Y• 4th Year CF-SVCLTAEXY4• 5th Year CF-SVCLTAEXY5• 4th & 5th Year CF-SVCLTAEX2Y • APOS 4th Year CF-SVCLTAEAPOY4• APOS 5th Year CF-SVCLTAEAPOY5• APOS 4th & 5th Year CF-SVCLTAEAPO2YAPOS: After Point of SaleEXTENDED WARRANTYIf this coverage is purchased, the serial numbered unit is entitled to the extended manufacturer warranty coverage with the exception of the battery for which a separate coverage program is available. The cost of labor, parts, and overnight shipping are included in the price of the Extended Warranty Program.• 4th Year CF-SVCLTEXT1Y• 4 & 5th Year CF-SVCLTEXT2Y• APOS 4th Year CF-SVCLTEXTAPOS1Y• APOS 5th Year CF-SVCLTEXTAPOSY5• APOS 4 & 5th Year CF-SVCLTEXTAPOS2YAPOS: After Point of SaleSMART BATTERY WARRANTY PROGRAMExtends the standard 1-year battery warranty up to 5 years and provides Smart Battery Monitoring. The main battery can be replaced when it falls below 50% capacity (per PC Information Viewer) during the coverage term. The Smart Analytics provide in depth insight and facilitates troubleshooting on a proactive basis.• Main Battery 3 Year CF-SVCBATSW3Y• Main Battery 4 Year CF-SVCBATSW4Y• Main Battery 5 Year CF-SVCBATSW5Y• Dual Battery 3 Year CF-SVCBATX2SW3Y• Dual Battery 4 Year CF-SVCBATX2SW4Y• Dual Battery 5 Year CF-SVCBATX2SW5YHOT SWAP & HOT SPARE MANAGEMENT SERVICEWithin a Hot Swap program, when a device requires service, Panasonic sends the user a fully functional computer from a reserve of customer- owned computers stored at Panasonic’s National Service Center. The replacement unit is shipped for next business day delivery whenever a user calls Panasonic Technical Support and determines that the computer needs to be serviced. The user removes the storage drive from the original computer and inserts it into the replacement unit, eliminating the need to transfer files or software. The user keeps the replacement computer and ships the original unit to Panasonic. When the original computer is received by Panasonic, it is repaired, re-imaged and put back into the customer’s consigned inventory for future use.Unlike Hot Swap, when Hot Spare is chosen, the original unit sent in for service is returned to the original end user following service and the original spare unit is returned to the customer owned reserve.• Hot Swap 3 Year CF-SVCLTHS3YR• Hot Swap 4 Year CF-SVCLTHS4YR• Hot Swap 5 Year CF-SVCLTHS5YR• Hot Spare 3 Year CF-SVCLTHSP3YR• Hot Spare 4 Year CF-SVCLTHSP4YR• Hot Spare 5 Year CF-SVCLTHSP5YRSSD NO RETURN & USER REPLACEMENTWhen this coverage is purchased, a customer is not required to send a defective storage drive back to the service center when replaced due to SSD failure.• 512GB SSD — 3 Year CF-SVC512SSD3Y• 512GB SSD — 4 Year CF-SVC512SSD4Y• 512GB SSD — 5 Year CF-SVC512SSD5Y• 512GB SSD — 3 Year (Federal Specific) CF-SVC512SSD3YT• 512GB SSD — 4 Year (Federal Specific) CF-SVC512SSD4YT• 512GB SSD — 5 Year (Federal Specific) CF-SVC512SSD5Y T• 1TB or 2TB SSD — 3 Year CF-SVC1TBSSD3Y• 1TB or 2TB SSD — 4 Year CF-SVC1TBSSD4Y• 1TB or 2TB SSD — 5 Year CF-SVC1TBSSD5Y• 1TB or 2TB SSD — 3 Year (Federal Specific) CF-SVC1TBSSD3YT• 1TB or 2TB SSD — 4 Year (Federal Specific) CF-SVC1TBSSD4YT• 1TB or 2TB SSD — 5 Year (Federal Specific) CF-SVC1TBSSD5Y TENGINEERING SERVICES & PROJECT MANAGEMENT Engineering services can include services development and all changes through the life of the Panasonic deployment along with ad hoc technical services. The service level is determined at time of purchase.• Field Engineering Support based on needs analysis CF-SVCFES20/40/60/80/100PUBLIC SAFETY BUNDLE EXTENSIONSThe following SKU’s are available to extend the Public Safety 3 year bundles to year 4 or years 4 and 5. These SKU’s must be purchased with the hardware on the same order. If delayed purchase is desired, please utilize the standard APOS SKU’s for Premier Deployment, SSD No Return, and ProPlus Warranty.• 4th Year Add on CF-SVCPSY4• 4th & 5th Years Add on CF-SVCPSY5。

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M27C516512Kbit (32Kb x16)OTP EPROMSeptember 19981/125V ±10%SUPPLY VOLTAGE in READ OPERATIONFAST ACCESS TIME:35nsLOW POWER CONSUMPTION:–Active Current 30mA at 5MHz –Stand-by Current 100µAPROGRAMMING VOLTAGE:12.75V ±0.25V PROGRAMMING TIME:100µs/word (typical)ELECTRONIC SIGNATURE –Manufacturer Code:0020h –Device Code:000FhDESCRIPTIONThe M27C516is a 512Kbit EPROM offered in the OTP range (one time programmable).It is ideally suited for microprocessor systems requiring large data or program storage and is organized as 32,768words of 16bits.The M27C516is offered in a PLCC44andTSOP40(10x 14mm)packages.AI0093215A0-A14P Q0-Q15V PPV CC M27C516GE V SS16Figure 1.Logic DiagramA0-A14Address Inputs Q0-Q15Data Outputs E Chip Enable G Output Enable P Program Enable V CC Supply Voltage V PP Program Supply V SSGroundTable 1.Signal NamesPLCC44(C)TSOP40(N)10x 14mmSymbol ParameterValue Unit T A Ambient Operating Temperature (3)–40to 125°C T BIAS Temperature Under Bias –50to 125°C T STG Storage Temperature–65to 150°C V IO(2)Input or Output Voltages (except A9)–2to 7V V CC Supply Voltage –2to 7V V A9(2)A9Voltage–2to 13.5V V PPProgram Supply Voltage–2to 14VNotes:1.Except for the rating ”Operating Temperatur e Range”,stresses above those listed in the Table ”Absolute Maximum Ratings”may cause permanent damage to the device.These are stress ratings only and operation of the device at these or any other conditions above those indicated in the Operating sections of this specification is not implied.Exposure to Absolute MaximumRating conditions for extended periods may affect device reliability.Refer also to the STMicroelectronics SURE Program and other relevant quality documents.2.Minimum DC voltage on Input or Output is –0.5V with possible undershoot to –2.0V for a period less than 20ns.Maximum DC voltage on Output is V CC +0.5V with possible overshoot to V CC +2V for a period less than 20ns.3.Depends on range.Table 2.Absolute Maximum Ratings (1)AI00934A 14A11A7A 323Q6Q5Q4Q 3Q 2N C A 2Q12Q8V SS NC Q11Q1012N C A91Q 15V SS A12Q 13A544N C N C M27C516Q 14A13A 4NC A634Q 1Q9A10A8Q7Q 0G A 0A 1V P P E P V C C Figure 2A.LCC Pin ConnectionsWarning :NC =Not Connected.DQ6DQ3DQ2DQ13DQ8DQ7DQ10DQ9A14A8A11A10A4NC A9G A7A2DQ1DQ0A0A1A3NC P E DQ14V PP V CC DQ15AI01600M27C516 (Normal)101112021303140V SSA12A6A13A5DQ12DQ4DQ11DQ5V SS Figure 2B.TSOP Pin ConnectionsWarning :NC =Not Connected.2/12M27C516Mode E G P A9V PP Q0-Q15 Read V IL V IL V IH X V CC Data Out Output Disable V IL V IH X X V CC Hi-Z Program V IL X V IL Pulse X V PP Data In Verify V IL V IL V IH X V PP Data Out Program Inhibit V IH X X X V PP Hi-Z Standby V IH X X X V CC Hi-Z Electronic Signature V IL V IL V IH V ID V CC Codes Notes:X=V IH or V IL,V ID=12V±0.5VTable3.Operating ModesIdentifier A0Q7Q6Q5Q4Q3Q2Q1Q0Hex Data Manufacturer’s Code V IL0010000020h Device Code V IH000011110Fh Note:Outputs Q8-Q15are set to’0’.Table4.Electronic SignatureDEVICE OPERATIONThe operating modes of the M27C516are listed in the Operating Modes table.A single power supply is required in the read mode.All inputs are TTL levels except for G and12V on A9for Electronic Signature.Read ModeThe M27C516has two control functions,both of which must be logically active in order to obtain data at the outputs.Chip Enable(E)is the power control and should be used for device selection. Output Enable(G)is the output control and should be used to gate data to the output pins,inde-pendent of device selection.Assuming that the addresses are stable,the address access time (t AVQV)isequal to thedelay from E to output(t ELQV). Data is available at the output after a delay of t GLQV from the falling edge of G,assuming that E has been low and the addresses have been stable for at least t AVQV-t GLQV.Standby ModeThe M27C516has a standby mode which reduces the supply current from30mA to100µA.The M27C516is placed in the standby mode by apply-ing a CMOShigh signal to the E input.When in the standbymode,the outputs are in a highimpedance state,independent of the G input.Two Line Output ControlBecause OTP EPROMs are usually used in larger memoryarrays,the product featuresa2linecontrol function which accommodates the use of multiple memory connection.The two line control function allows:a.the lowest possible memory power dissipation,plete assurance that output bus contentionwill not occur.For the most efficientuse of thesetwo control lines, E should be decoded and used as the primary device selecting function,while G should be made a common connection to all devices in the array and connected to the READ line from the system control bus.This ensures that all deselectedmem-ory devices are in their low power standby mode and that the output pins are only active when data is required from a particular memory device.3/12M27C516AI02024B1.3VOUTC L =30pF or 60pF or 100pFC L includes JIG capacitance3.3k Ω1N914DEVICE UNDER TESTFigure 4.AC Testing Load CircuitSymbol ParameterTest ConditionMinMax Unit C IN Input Capacitance V IN =0V 6pF C OUTOutput CapacitanceV OUT =0V12pFNotes.1.V CC must be applied simultaneously with or before V PP and removed simultaneously with or after V PP .2.This parameter is sampled only and not tested 100%.Table 6.Capacitance (T A =25°C,f =1MHz )System ConsiderationsThe power switching characteristics of Advanced CMOS EPROMs require careful decoupling of the devices.The supply current,I CC ,has three seg-ments that are of interest to the system designer:the standby current level,the active current level,and transient current peaks that are produced by the falling and risingedges of E.The magnitude of the transient current peaks is dependent on the capacitiveand inductiveloading of thedevice at the output.The associatedtransient voltagepeaks can be suppressed by complying with the two lineoutput control and by properlyselected decoupling capacitors.It is recommended that a 1µF ceramic capacitor be used on every device between V CC and V SS .This shouldbe a high frequencycapacitor of low inherent inductance and should be placed as close to the device as possible.In addition,a 4.7µF bulk electrolytic capacitor should be used between V CC and V SS for every eight devices.The bulk capacitor should be located near the power supplyconnection point.The purpose of the bulk capacitor is to overcome the voltage drop caused by the inductive effects of PCB traces.AI018223VHigh Speed0V1.5V2.4VStandard 0.4V2.0V 0.8VFigure 3.AC Testing Input Output Waveform High SpeedStandard Input Rise and Fall Times ≤10ns ≤20ns (10%to 90%)Input Pulse Voltages0to 3V 0.4V to 2.4V Input and Output Timing Ref.Voltages1.5V0.8V and 2VTable 5.AC Measurement Conditions4/12M27C516Symbol ParameterTest Condition MinMax Unit I LI Input Leakage Current 0V ≤V IN ≤V CC ±1µA I LO Output Leakage Current 0V ≤V OUT ≤V CC ±5µA I CC Supply CurrentE =V IL ,G =V IL ,f =5MHz30mA I CC1Supply Current (Standby)TTL E =V IH 1mA I CC2Supply Current (Standby)CMOS E >V CC –0.3V 100µA I PP Program Current V PP =V CC10µA V IL Input Low Voltage –0.30.8V V IH (2)Input High Voltage 2V CC +1V V OL Output Low Voltage I OL =2.1mA 0.4V V OHOutput High Voltage TTL I OH =–400µA 2.4V Output High Voltage CMOSI OH =–100µAV CC –0.7VVNotes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP .2.Maximum DC Voltage on Output is V CC +0.5V.Table 7.Read Mode DC Characteristics (1)(T A =0to 70°C or –40to 85°C;V CC =5V ±5%or 5V ±10%;V PP =V CC )SymbolAltParameterTest ConditionM27C516Unit-35(3)-45(3)-55(4)MinMax MinMax MinMax t AVQV t ACC Address Valid to Output ValidE =V IL ,G =V IL354555ns t ELQV t CE Chip Enable Low to Output ValidG =V IL 354555ns t GLQV t OE Output Enable Low to Output Valid E =V IL 182325ns t EHQZ (2)t DF Chip Enable High to Output Hi-ZG =V IL 018018020ns t GHQZ (2)t DF Output Enable High to Output Hi-ZE =V IL 018018020ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V ILnsNotes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously with or after V PP.2.Sampled only,not 100%tested.3.Speed obtained with High Speed measurement conditions and a load capacitance of 30pF .4.Speed obtained with a load capacitance of 60pF.Table 8A.Read Mode AC Characteristics (1)(T A =0to 70°C or –40to 85°C;V CC =5V ±5%or 5V ±10%;V PP =V CC )5/12M27C516ProgrammingWhen delivered,all bits of the M27C516are in the ’1’state.Data is introduced by selectively program-ming ’0’s into the desired bit locations.Although only ’0’s will be programmed,both ’1’s and ’0’s can be present in the data word.The M27C516is in theprogramming mode when V PP input is at 12.75V,E is at V IL and P is pulsed to V IL .The data to be programmed is applied to 16bits in parallel to the data output pins.The evels required for the ad-dress and data inputs are TTL.V CC is specified to be 6.25V ±0.25V.AI00935BtAXQXtEHQZA0-A14EGQ0-Q15tAVQVtGHQZtGLQVtELQVVALID Hi-ZVALIDFigure 5.Read Mode AC WaveformsSymbolAltParameterTest ConditionM27C516Unit-70(3)-85/-10MinMax MinMax t AVQV t ACC Address Valid to Output Valid E =V IL ,G =V IL7085ns t ELQV t CE Chip Enable Low to Output Valid G =V IL 7085ns t GLQV t OE Output Enable Low to Output Valid E =V IL 3535ns t EHQZ (2)t DF Chip Enable High to Output Hi-Z G =V IL 020030ns t GHQZ (2)t DF Output Enable High to Output Hi-Z E =V IL 020030ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V IL0ns Notes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously with or after V PP.2.Sampled only,not 100%tested.3.Speed obtained with a load capacitance of 60pFTable 8B.Read Mode AC Characteristics (1)(T A =0to 70°C or –40to 85°C;V CC =5V ±5%or 5V ±10%;V PP =V CC )6/12M27C516Symbol ParameterTest Condition MinMax Unit I LI Input Leakage Current V IL ≤V IN ≤V IH±10µA I CC Supply Current 50mA I PP Program Current E =V IL50mA V IL Input Low Voltage –0.30.8V V IH Input High Voltage 2V CC +0.5V V OL Output Low Voltage I OL =2.1mA 0.4V V OH Output High Voltage TTL I OH =–400µA2.4V V IDA9Voltage11.512.5VNote: 1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP .Table 9.Programming Mode DC Characteristics (1)(T A =25°C;V CC =6.25V ±0.25V;V PP =12.75V ±0.25V)Symbol Alt ParameterTest ConditionMin MaxUnit t AVPL t AS Address Valid to Program Low 2µs t QVPL t DS Input Valid to Program Low 2µs t VPHPL t VPS V PP High to Program Low 2µs t VCHPL t VCS V CC High to Program Low 2µs t ELPL t CES Chip Enable Low to Program Low 2µs t PLPH t PW Program Pulse Width 95105µs t PHQX t DH Program High to Input Transition2µs t QXGL t OES Input Transition to Output Enable Low2µs t GLQV t OE Output Enable Low to Output Valid100ns t GHQZ (2)t DFP Output Enable High to Output Hi-Z0130ns t GHAXt AHOutput Enable High to Address TransitionµsNotes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP .2.Sampled only and not 100%tested.Table 10.ProgrammingMode AC Characteristics (1)(T A =25°C;V CC =6.25V ±0.25V;V PP =12.75V ±0.25V)7/12M27C516tAVPLVALIDAI00936A0-A14Q0-Q15V PPV CCPGDATA INDATA OUTEtQVPLtVPHPLtVCHPLtPHQXtPLPHtGLQVtQXGLtELPLtGHQZtGHAXPROGRAM VERIFYFigure 6.Programming and Verify Modes AC WaveformsAI00707Cn =0Last AddrVERIFYP =100µs Pulse++n =25++AddrV CC =6.25V,V PP =12.75VFAILCHECK ALL WORDS 1st:V CC =6V 2nd:V CC =4.2VYES NOYESNOYESNO Figure 7.Programming FlowchartPRESTO II Programming AlgorithmPRESTO II Programming Algorithm allows to pro-gram the whole array with a guaranteedmargin,in a typical time of 3seconds.Programming with PRESTO II involves the application of a sequence of 100µs programpulses to each byteuntil a correct verify occurs (see Figure 7).During programming and verify operation,a MARGIN MODE circuit is automatically activated in order to guarantee that each cell is programmed with enough margin.No overprogram pulse is applied since the verify in MARGIN MODE provides necessary margin to each programmed cell.Program InhibitProgramming of multiple M27C516sin parallelwith different data is also easily accomplished.Except for E,all like inputs including G of the parallel M27C516may be common.A TTL low level pulse applied to a M27C516’sP input,with E low and V PP at 12.75V,will program that M27C516.A high level E input inhibits the other M27C516s from being programmed.Program VerifyA verify (read)should be performed on the pro-grammed bits to determinethat they were correctly programmed.The verify is accomplished with E and G at V IL ,P at V IH ,V PP at 12.75V and V CC at 6.25V.8/12M27C516On-Board ProgrammingThe M27C516can be directly programmed in the application circuit.See the relevant Application Note AN620.Electronic SignatureThe Electronic Signature(ES)mode allows the reading out of a binary code from an EPROM that will identify its manufacturer and type.This mode is intended for use by programming equipment to automatically match the device to be programmed withits correspondingprogrammingalgorithm.The ES mode is functional in the25°C±5°C ambient temperature range that is required when program-ming the M27C516.To activate the ES mode,the programming equipmentmust force11.5Vto12.5V on address line A9of the M27C516.Two identifier bytes may then be sequenced from the device outputsby togglingaddressline A0from V IL to V IH.All other address lines must be held at V IL during Electronic Signature mode.Byte0 (A0=V IL)represents the manufacturer code and byte1(A0=V IH)the device identifier code.For the STMicroelectronics M27C516,these two identifier bytes are given in Table4and can be read-out on outputs Q0to Q7.Speed-35(1)35ns -45(1)45ns -55(2)55ns -70(2)70ns -8585ns -10100nsV CC Toleranceblank±10%X±5%PackageC PLCC44N TSOP4010x14mmTemperature Range10to70°C6–40to85°COptionTR Tape&ReelPacking Example:M27C516-70X N1TRORDERING INFORMATION SCHEMENotes:1.High Speed,see AC Characteristics section for further information.2.Speed obtained with a load capacitance of60pF.For a list of availableoptions(Speed,Package,etc...)or for furtherinformation on any aspect of this device, please contact the STMicroelectronics Sales Office nearest to you.9/12M27C516PLCC44-44lead Plastic Leaded Chip Carrier,squarePLCCD NeE1E1ND1NdCPBD2/E2eB1A1AR0.51(.020)1.14(.045)F A2Symbmm inches TypMin Max TypMin Max A 4.20 4.700.1650.185A1 2.29 3.040.0900.120A2–0.51–0.020B 0.330.530.0130.021B10.660.810.0260.032D 17.4017.650.6850.695D116.5116.660.6500.656D214.9916.000.5900.630E 17.4017.650.6850.695E116.5116.660.6500.656E214.9916.000.5900.630e 1.27––0.050––F 0.000.250.0000.010R 0.89––0.035––N 4444CP0.100.004Drawing is not to scale10/12M27C516TSOP40-40lead Plastic Thin Small Outline,10x 14mmTSOP-aD1E1NCPBeA2AN/2DDIECLA1αSymbmm inches TypMinMax TypMinMax A 1.200.047A10.050.150.0020.006A20.95 1.050.0370.041B 0.170.270.0070.011C 0.100.210.0040.008D 13.8014.200.5430.559D112.3012.500.4840.492E 9.9010.100.3900.398e 0.50––0.020––L 0.500.700.0200.028α0°5°0°5°N 4040CP0.100.004Drawing is not to scale11/12M27C516M27C516Information furnished is believed to be accurate and reliable.However,STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringementof patents or other rights of third parties which may result from its use.No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics.Specifications mentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics©1998STMicroelectronics-All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia-Brazil-Canada-China-France-Germany-Italy-Japan-Korea-Malaysia-Malta-Mexico-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A.12/12。

產品摘要- 支持雙通道DDR3 2400+ (超頻)- 支持ATI™ CrossFireX™交叉火力技術和4路CrossFireX™交叉火力技術- 2 x 電源 eSATAII/USB 接口- 支持 EuP, 組合散熱器選項 (C.C.O.)- 7.1聲道Windows® Vista™ Premium級別高保真音頻（VIA® VT1708S音頻編解碼器具QSound功能）- 支持華擎Instant Boot, Instant Flash, 智能BIOS,華擎超頻調節器, 智能型能源節約器, OC DNA規格更改時恕不預先通知 品牌和產品名稱歸各自公司所有。

不保證任何配置与產品實物規格相同。

詳細規格中央處理器芯片內存擴充插槽規格尺寸- Micro ATX 規格: 9.6-in x 8.8-in, 24.4 cm x 22.4 cm- 全固態電容設計(100%日本原裝高品質高傳導固態電容)- 支持 LGA1156 封裝的 Intel® Core TM i7 与 Intel® Core TM i5處理器- 支持 Intel® Turbo Boost 技術- 支持Hyper-Threading超線程技術- 支持自由超頻技術- 支持 EM64T CPU- Intel® P55- 雙通道DDR3內存技術- 4 x DDR3 內存插槽- 支持DDR3 2400+(超頻)/2133(超頻)/1866(超頻)/1600/1333/1066 non-ECC, un-buffered內存- 系統內存最大容量: 16GB- 支持Intel® Extreme Memory Profile（XMP）技術- 1 x PCI Express 2.0 x16 插槽（x16 模式）- 1 x PCI Express 2.0 x16 插槽（x4 模式，2.5GT/s）- 1 x PCI Express 2.0 x1 插槽（2.5GT/s）- 1 x PCI插槽- 支持ATI TM CrossFireX TM交叉火力技術和 4路CrossFireX TM交叉火力技術Featuring theIntel P55 Express ChipsetEuP ReadyEuP支持 EuP 的主板支持 EuP 的電源供應器EuP 系統EuP是什么?EuP，全稱Energy Using Product（能耗產品），是歐盟用來定義完整系統耗電量的規定。

CMS32M55xx 数据手册ARM ® Cortex ® -M0 32位电机微控制器 Rev. 1.08请注意以下有关CMS 知识产权政策＊中微半导体（深圳）股份有限公司（以下简称本公司）已申请了专利，享有绝对的合法权益。

与本公司MCU或其他产品有关的专利权并未被同意授权使用，任何经由不当手段侵害本公司专利权的公司、组织或个人，本公司将采取一切可能的法律行动，遏止侵权者不当的侵权行为，并追讨本公司因侵权行为所受的损失、或侵权者所得的不法利益。

＊中微半导体（深圳）股份有限公司的名称和标识都是本公司的注册商标。

＊本公司保留对规格书中产品在可靠性、功能和设计方面的改进作进一步说明的权利。

然而本公司对于规格内容的使用不负责任。

文中提到的应用其目的仅仅是用来做说明，本公司不保证和不表示这些应用没有更深入的修改就能适用，也不推荐它的产品使用在会由于故障或其它原因可能会对人身造成危害的地方。

本公司的产品不授权适用于救生、维生器件或系统中作为关键器件。

本公司拥有不事先通知而修改产品的权利，对于最新的信息，请参考官方网站 。

1. 产品特性1.1 MCU功能特性◆内核ARM Cortex™-M0，**********~5.5V- 单周期32位硬件乘法器◆32位硬件除法器（HWDIV）- 有/无符号模式，6个HCLK完成运算◆存储器- 最大32K字节程序FLASH（APROM+BOOT）- 1K字节的FLASH数据区（独立空间）- 最大8K字节SRAM（支持分区写保护功能）- 支持BOOT功能，BOOT区可设置大小0-4K- 支持硬件CRC校验FLASH空间代码- 支持FLASH分区保护（最小单位为2K）◆系统时钟- 内部高速振荡48MHz/64MHz（HSI）- 内部低速振荡40KHz（LSI）◆GPIO（最多24 I/Os）◆LVR（1.9V/2.1V/2.6V）◆LVD（2.0V/2.2V/2.4V/2.7V/3.0V/3.7V）◆系统定时器- 24位SysTick定时器- 看门狗定时器（WDT）- 窗口看门狗定时器（WWDT）◆正常模式/睡眠模式/深度睡眠模式/停止模式◆通用循环冗余校验单元（CRC）◆定时器（32bit/16bit-TIMER0/1）◆捕获/比较/脉宽调制（CCP0/1）- 支持4通道同时捕捉可连接到霍尔传感器接口◆通信接口- 1个I2C模块（通信速度最快可达1Mb/s）- 1个SSP/SPI模块（4-16位数据格式可调）- 最多2个UART：UART0/1（共32个收/发FIFO）（UART1的TXD1与RXD1可分配到任意端口）◆串行调试接口SWD（2-Wire）◆96bit唯一ID（UID）◆128bit用户UID（USRUID）- 用户可设置，可加密（可作为安全密钥）◆增强型PWM（EPWM）- 6路通道且通道可重映射- 支持独立/互补/同步/成组输出模式- 支持边沿/中心对齐计数模式- 支持单次/连续/间隔加载更新模式- 支持互补模式插入死区延时- 支持掩码及掩码预设（共8个掩码状态缓存）- 支持霍尔传感器接口（硬件控制PWM输出）- 支持硬件刹车及6种刹车信号源◆ADC0（12bit，100Ksps）- 最多24个输入通道- 每个转换通道有独立的结果寄存器- 支持单次/连续模式- 支持2种硬件触发方式共7个触发源- 1个转换结果比较器，可产生中断◆ADC1（12bit，1.2Msps）- 最多24个输入通道- 每个转换通道有独立的结果寄存器- 支持单次/连续模式/插入模式- 支持外部触发方式- 1个转换结果比较器，可产生中断◆模拟比较器（ACMP0/1）- 正端4路选择，负端可选内部1.2V/VDD分压- 支持迟滞电压选择：10mV/20mV/60mV- 支持比较器输出触发EPWM刹车◆可编程增益放大器（PGA0/1）- 正端4路选择- 输出可接内部ADC通道与模拟比较器的输入- 内部增益可选择：4倍~32倍◆运算放大器（OP0/1）- 输入可接内部1.2V基准- 输出可接内部ADC通道与模拟比较器的输入- 可设置为比较器模式◆支持安全相关的功能与应用- 满足IEC60730 CLASS B 标准1.2 产品对比以下是CMS32M55XX芯片的产品对比注：1) 通过系统配置寄存器设置APROM和BOOT空间大小，APROM与BOOT空间总共最大为32K；2) 表示模拟模块个数，模拟功能并非通过管脚的输入/输出实现，输入/输出管脚以实际产品为准。