SSL-LXA228SYC-TR11中文资料

This document provides firmware update instructions and describes what is new in this firmware version for the SUHD553-L, SUHD653-L, SUHD753-L, SUHD863-L.This is the initial release for the Secure Series II panels (SUHD553-L, SUHD653-L, SUHD753-L, SUHD863-L) for the Scaler firmware v1.0.1.8 and Ethernet firmware v14.Follow these steps to update the scaler firmware.Learn how to update the scaler firmware.Christie recommends updating the scaler firmware using the USB method as it is faster than the webserver update method.1.Upload the firmware for the A/D board.2.Plug in a USB memory to the service terminal.3.Enter the Factory-Menu.To enter the Factory-Menu by remote control:After version 1.0.2.1-114.5.Select USB Update.For compatible USB storage devices a Connected message appears. Proceed to step 5. If the USB storage device is not compatible, proceed to step 6.6.If Connected appears, select USB Update.The firmware is updated automatically and the panel goes into Standby mode after a successfulfirmware update (about 30 seconds).a.Reset the main power switch to turn the panel back on.b.When the firmware update is complete, From the Factory-Menu perform an Initial Setting.c.After Initial Setting, power off the panel using the rocker-switch.d.Wait at least 10 seconds and power the panel back on.7.If the USB storage device is not compatible, a Not Connected USB message appears.8.For the software version to upload correctly, ensure the filename is SUHD983P.bin.Follow these steps to update the Ethernet firmware.1.To use a static IP address, select Disable under DHCP.•The default static IP address is 192.168.10.10.•At initial power on, it may take up to 30 seconds for the IP address to be active.2.Select DHCP Enable to use a dynamic IP address.•If there is router, the IP address starts with 192.166.•If there is no router, the IP address starts with 169.254.1.Go to Local Network Setting > Internet protocol version 4 (TCP/IPv4).2.If DHCP is disabled, set the IP address and Subnet mask.The IP address must be a different address than the display.IP address : 192.168.10.50Subnet Mask : 255.255.255.03.If DHCP is enabled, select Obtain an IP address automatically.The ping test checks the Ethernet connection.1.Press Windows + R.2.Type cmd and click OK.3.Type ping –t 192.168.10.10.4.Replace the IP address with the address of the display panel.A response similar to below indicates the ping test was successful.A response similar to below indicates the ping test failed.Connect to the built-in web server open a Web browser (for example, Internet Explorer, Chrome) and follow the instructions below.1.In a web browser, go to the address of the display panel.The web page provides all menu controls on the on-screen display.2.To set a value, click Apply.3.To display the current value, click Read.4.To upgrade the Ethernet or Scaler firmware, go to the General settings page.•Ethernet firmware update time: approximately 5 minutes.File name : Ethernet_FW_Secure_Series_II_V*.bin•Scaler firmware update time: approximately 8 minutesSecure_Series_II.binIf you updated the scaler firmware using the USB method, it does not need to be updated again inthe web server.Before staring the updates, ensure the following settings are selected in the Setup menu of the WebUI or the on screen display:•Setup > Power Save > Off•Setup > Power Off Mode > StandbyScaler F/W update:The panel turns off approximately three minutes after the update starts. Once the update is complete (takes approximately five to eight minutes) an Update completed. Please reboot. messageappears on the WebUI and the panel powers on.Ethernet F/W update:The panel stays on throughout the update. Once the update is complete (takes approximately five to eight minutes) an Update completed. Please reboot. message appears on the WebUI and thepanel stays on.5.Power off the unit using the remote control.6.Power cycle the panel by turning the rocker switch to the OFF position and back to ON after 15 seconds.7.Power on the panel.8.To confirm version of the firmware, click the About page on the WebUI or the panel on-screen display. For installation, setup, and user information, see the product documentation available on the Christiewebsite. Read all instructions before using or servicing this product.1.Access the documentation from the Christie website:•Go to this URL: https://bit.ly/2VccFTr orhttps:///products/lcd-panels/secure-series-II/•Scan the QR code using a QR code reader app on a smartphone or tablet.2.On the product page, select the model and switch to the Downloads tab.Additional information on the LCD panels is available in the following documents.•Secure Series II LCD Panels Product Safety Guide (P/N: 020-001778-XX)•Secure Series II LCD Display Panels External Commands (P/N: 020-001915-XX)•SUHD553-L LCD Panels Service Guide (P/N: 020-001850-XX)•SUHD653-L LCD Panels Service Guide (P/N: 020-001851-XX)•SUHD753-L LCD Panels Service Guide (P/N: 020-001876-XX)•SUHD863-L LCD Panels Service Guide (P/N:020-001877-XX)Technical support for Christie products is available at:•North and South America: +1-800-221-8025 or ************************************•Europe, Middle East, and Africa: +44 (0) 1189 778111 or ********************************•Asia Pacific•Australia: +61 (0)7 3624 4888•China: +86 10 6561 0240•India: +91 (80) 6708 9999•Japan: 81-3-3599-7481•Singapore: +65 6877-8737•South Korea: +82 2 702 1601•Christie Professional Services: +1-800-550-3061 or ***********************。

USB2.0 HUB控制器集成电路USB 2.0 HIGH SPEED 4-PORT HUB CONTROLLERSL2.2s数据手册Data Sheet内容目录第一章管脚分配 (3)1.1 SL2.2S管脚图 (3)1.2 SL2.2S管脚定义 (3)第二章 功能叙述 (5)2.1综述 (5)2.2指示灯 (5)2.2.1单灯方案 (5)2.2.2多灯方案 (6)2.2.3 LED指示定义 (6)2.3过流保护 (6)2.4充电支持 (6)2.5I2C接口 (7)2.6EEPROM设置 (7)第三章电气特性 (8)3.1极限工作条件 (8)3.2工作范围 (8)3.3直流电特性 (8)3.4HS/FS/LS电气特性 (8)3.5ESD特性 (8)附录一封装 (9)表格目录表格1: 端口LED定义 (6)表格 2 : ACTIVE LED定义 (6)表格3：EEPROM数据结构定义 (7)表格4: 最大额定值 (8)表格5: 工作范围 (8)表格6: 直流电特性 (8)插图目录图1：SSOP28 管脚图 (3)图2：单灯方案配置 (5)图3: 5灯方案配置 ............................................................................... (6)图 4：附录 封装图 ................................................................................... .9第一章管脚分配1.1SL2.2s管脚图图1：SSOP28 管脚图1.2SL2.2s管脚定义管脚名称28Die IO类型定义Pin#VSS 1 P 芯片地XOUT 2 O晶振PAD XIN 3 IDM4 4 B下行口4的USB信号DP4 5 BDM3 6 B下行口3的USB信号DP3 7 BDM2 8 B下行口2的USB信号DP2 9 BDM1 10 B下行口1的USB信号DP1 11 BVDD18 12 P 模拟1.8vVDD33 13 P 模拟3.3v - 14 NCUDM 15 B上行口的USB信号UDP 16 BRESET_N 17 I,Pu 芯片外部复位输入- 18 NCPSELF 19 I,Pu 高为自供电，低为总线供电VDD5 20 P 5v输入VDD33 21 P 3.3v输出DRV 22 B,Pu 点灯驱动信号LED1 23 B,Pu 点灯驱动信号LED2 24 B,Pu 点灯驱动信号PWRN 25 B,Pu 下行口电源输出控制，低有效OVCRN/SDA 26 B,PuI2C SDA数据线，内部上拉；芯片初始化完成后作为过流保护输入脚，低有效SCL 27 B,Pu I2C SCL时钟输出VDD18 28 P 数字1.8v注释：O，输出；I 输入；B 双向；P 电源/接地；Pu 上拉；Pd 下拉；NC 悬空；第二章 功能叙述2.1综述SL2.2s 是一颗高集成度,高性能,低功耗的USB2.0集线器主控芯片；该芯片采用STT 技术,单电源供电方式，芯片供电电压为5v , 内部集成5V 转3.3V,只需在外部电源添加滤波电容；芯片自带复位电路，低功耗技术让他更加出众。

UC-8200SeriesArm Cortex-A7dual-core1GHz IIoT gateways with built-in LTE Cat.4,1mini PCIe expansion slot for a Wi-Fi module,1CAN port,4DIs,4DOsFeatures and Benefits•Armv7Cortex-A7dual-core1GHz•ISASecure IEC62443-4-2Security Level2certified with Moxa IndustrialLinux3Secure•Moxa Industrial Linux with10-year superior long-term support•LTE-ready computer with Verizon/AT&T certification and industrial-grade CE/FCC/UL certifications•Dual-SIM slots•2auto-sensing10/100/1000Mbps Ethernet ports•Integrated LTE Cat.4module with US/EU/APAC band support•1CAN port supports CAN2.0A/B•microSD socket for storage expansion•-40to85°C wide temperature range and-40to70°C with LTE enabledCertificationsIntroductionThe UC-8200computing platform is designed for embedded data acquisition applications.The computer comes with dual RS-232/422/485serial ports,dual10/100/1000Mbps Ethernet ports,and one CAN port as well as dual Mini PCIe socket to support Wi-Fi/cellular modules.These versatile capabilities let users efficiently adapt the UC-8200to a variety of complex communications solutions.The UC-8200is built around a Cortex-A7dual core processor that has been optimized for use in energy monitoring systems,but is widely applicable to a variety of industrial solutions.With flexible interfacing options,this tiny embedded computer is a reliable and secure gateway for data acquisition and processing at field sites as well as a useful communications platform for many other large-scale deployments.Wide temperature LTE-enabled models are available for extended temperature applications.All units are thoroughly tested in a testing chamber, guaranteeing that the LTE-enabled computing platforms are suitable for wide-temperature applications.AppearanceUC-8210UC-8220SpecificationsComputerCPU Armv7Cortex-A7dual-core1GHzDRAM2GB DDR3LSupported OS Moxa Industrial Linux1(Debian9,kernel4.4),2027EOLMoxa Industrial Linux31(Debian11,kernel5.10),2031EOLSee /MILStorage Pre-installed8GB eMMCExpansion Slots MicroSD(SD3.0)socket x13OS is selectable via Moxa Computer Configuration System(CCS)for CTO models.For the model names,see the Ordering Information section of thedatasheet PDF file.Computer InterfaceEthernet Ports Auto-sensing10/100/1000Mbps ports(RJ45connector)x2 Serial Ports RS-232/422/485ports x2,software selectable(DB9male) CAN Ports CAN2.0A/B x1(DB9male)Digital Input DIs x4Digital Output DOs x4USB2.0USB2.0hosts x1,type-A connectorsWi-Fi Antenna Connector UC-8220Models:RP-SMA x2Cellular Antenna Connector UC-8220Models:SMA x2GPS Antenna Connector UC-8220Models:SMA x1Expansion Slots UC-8220-T-LX:mPCIe slot x2UC-8220-T-LX US/EU/AP Models:mPCIe slot x1SIM Format UC-8220Models:NanoNumber of SIMs UC-8220Models:2Buttons Programmable buttonTPM TPM v2.0Ethernet InterfaceMagnetic Isolation Protection 1.5kV(built-in)Security FunctionsHardware-based Security TPM2.0Hardware Root of Trust Secure BootIntrusion Detection Host-based Intrusion DetectionSecurity Tools Security Diagnostic ToolSecurity Event AuditingSecure UpdateDisk Protection LUKS Disk EncryptionRecovery One-step recovery to the last known secure stateDual-system design with automatic failbackReliability Network Keep AliveNetwork Failover and FailbackSerial InterfaceBaudrate300bps to921.6kbpsData Bits7,8Stop Bits1,2Parity None,Even,Odd,Space,MarkFlow Control RTS/CTS,XON/XOFFADDC(automatic data direction control)for RS-485RTS Toggle(RS-232only)Console Port1x4-pin header to DB9console portRS-232TxD,RxD,RTS,CTS,DTR,DSR,DCD,GNDRS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDCAN InterfaceNo.of Ports1Connector DB9maleBaudrate10to1000kbpsIndustrial Protocols CAN2.0ACAN2.0BIsolation2kV(built-in)Signals CAN_H,CAN_L,CAN_GND,CAN_SHLD,CAN_V+,GNDDigital InputsConnector Screw-fastened Euroblock terminalDry Contact Off:openOn:short to GNDIsolation3K VDCSensor Type Wet contact(NPN)Dry contactWet Contact(DI to COM)On:10to30VDCOff:0to3VDCDigital OutputsConnector Screw-fastened Euroblock terminalCurrent Rating200mA per channelI/O Type SinkVoltage24VDC nominal,open collector to30VDCCellular InterfaceCellular Standards LTE Cat.4Band Options US Models:LTE Band2(1900MHz)/LTE Band4(1700MHz)/LTE Band5(850MHz)/LTE Band13(700MHz)/LTE Band17(700MHz)UMTS/HSPA850MHz/1900MHzCarrier Approval:Verizon,AT&TEU Models:LTE Band1(2100MHz)/LTE Band3(1800MHz)/LTE Band5(850MHz)/LTE Band7(2600MHz)/LTE Band8(900MHz)/LTE Band20(800MHz)UMTS/HSPA850MHz/900MHz/1900MHz/2100MHzAP Models:LTE Band1(2100MHz)/LTE Band3(1800MHz)/LTE Band5(850MHz)/LTE Band7(2600MHz)/LTE Band8(900MHz)/LTE Band28(700MHz)UMTS/HSPA850MHz/900MHz/1900MHz/2100MHzReceiver Types GPS/GLONASS/GalileoState-of-the-art GNSS solutionAccuracy Position:2.0m@CEP50Acquisition Hot starts:1.1secCold starts:29.94secSensitivity Cold starts:-145dBmTracking:-160dBmTime Pulse0.25Hz to10MHzLED IndicatorsSystem Power x2Programmable x1SIM card indicator x1Wireless Signal Strength Cellular/Wi-Fi x6Power ParametersNo.of Power Inputs Redundant dual inputsInput Voltage12to48VDCPower Consumption10WInput Current0.8A@12VDCReliabilityAlert Tools External RTC(real-time clock)Automatic Reboot Trigger External WDT(watchdog timer)Physical CharacteristicsDimensions UC-8220Models:141.5x120x39mm(5.7x4.72x1.54in)UC-8210Models:141.5x120x27mm(5.7x4.72x1.06in)141.5x120x27mm(5.7x4.72x1.06in)Weight UC-8210Models:560g(1.23lb)UC-8220Models:750g(1.65lb)Housing SECCMetalIP Rating IP30Installation DIN-rail mountingWall mounting(with optional kit)Environmental LimitsOperating Temperature-40to70°C(-40to158°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Shock IEC60068-2-27Vibration2Grms@IEC60068-2-64,random wave,5-500Hz,1hr per axis(without USB devicesattached)Standards and CertificationsEMC EN55032/35EN61000-6-2/-6-4EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:10V/mIEC61000-4-4EFT:Power:2kV;Signal:1kVIEC61000-4-6CS:10VIEC61000-4-8PFMFIEC61000-4-5Surge:Power:0.5kV;Signal:1kV Industrial Cybersecurity IEC62443-4-1IEC62443-4-2Hazardous Locations Class I Division2ATEXIECExCarrier Approvals VerizonAT&TSafety UL62368-1EN62368-1Green Product RoHS,CRoHS,WEEEMTBFTime UC-8210-T-LX-S:708,581hrsUC-8220-T-LX:650,836hrsUC-8220-T-LX-US-S/EU-S/AP-S:528,574hrs Standards Telcordia(Bellcore)Standard TR/SRWarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x UC-8200Series computerDocumentation1x quick installation guide1x warranty cardInstallation Kit1x DIN-rail kit(preinstalled)1x power jack6x M2.5mounting screws for the cellular module Cable1x console cableDimensions UC-8210UC-8220Ordering Information12UC-8210-T-LX-SDefault:MIL1(-Debian9),2027EOLOrder WithModel UC-8210-T-LX-S(CTO):MIL3(Debian11)Secure/Standard,2031EOLWith MIL3Secure1GHzDual CoreBuilt in––-40to85°CUC-8220-T-LXDefault:MIL1(-Debian9),2027EOLOrder WithModel UC-8220-T-LX(CTO):MIL3(Debian11)Secure/Standard,2031EOLWith MIL3Secure1GHzDual CoreBuilt in Reserved Reserved-40to70°CUC-8220-T-LX-US-SDefault:MIL1(-Debian9),2027EOLOrder WithModel UC-8220-T-LX-US-S(CTO):MIL3(Debian11)Secure/Standard,2031EOLWith MIL3Secure1GHzDual CoreBuilt inUS region LTEmodulepreinstalledReserved-40to70°CUC-8220-T-LX-EU-SDefault:MIL1(-Debian9),2027EOLOrder WithModel UC-8220-T-LX-EU-S(CTO):MIL3(Debian11)Secure/Standard,2031EOLWith MIL3Secure1GHzDual CoreBuilt inEurope regionLTE modulepreinstalledReserved-40to70°CUC-8220-T-LX-AP-SDefault:MIL1(-Debian9),2027EOLOrder WithModel UC-8220-T-LX-AP-S(CTO):MIL3(Debian11)Secure/Standard,2031EOLWith MIL3Secure1GHzDual CoreBuilt inAPAC regionLTE modulepreinstalledReserved-40to70°CUC-8210-T-LX-S(CTO)MIL3(Debian11)Secure orStandard,2031EOLWith MIL3Secure1GHzDual CoreBuilt in––-40to85°CUC-8220-T-LX(CTO)MIL3(Debian11)Secure orStandard,2031EOLWith MIL3Secure1GHzDual Core–Reserved Reserved-40to70°CUC-8220-T-LX-US-S (CTO)MIL3(Debian11)Secure orStandard,2031EOLWith MIL3Secure1GHzDual CoreBuilt inUS region LTEmodulepreinstalledReserved-40to70°C12UC-8220-T-LX-EU-S (CTO)MIL3(Debian11)Secure orStandard,2031EOLWith MIL3Secure1GHzDual CoreBuilt inEurope regionLTE modulepreinstalledReserved-40to70°CUC-8220-T-LX-AP-S (CTO)MIL3(Debian11)Secure orStandard,2031EOLWith MIL3Secure1GHzDual CoreBuilt inAPAC regionLTE modulepreinstalledReserved-40to70°CAccessories(sold separately)Power AdaptersPWR-12150-EU-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,EU plug,-40to75°C operating temperature PWR-12150-UK-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,UK plug,-40to75°C operating temperature PWR-12150-USJP-SA-T Locking barrel plug,12VDC1.5A,100to240VAC,US/JP plug,-40to75°C operating temperature PWR-12150-AU-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,AU plug,-40to75°C operating temperature PWR-12150-CN-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,CN plug,-40to75°C operating temperature Power WiringCBL-PJTB-10Non-locking barrel plug to bare-wire cableCablesCBL-F9DPF1x4-BK-100Console cable with4-pin connector,1mWi-Fi Wireless ModulesUC-8200-WLAN22-AC Wireless package for UC-8200V2.0or later with Wi-Fi module,2screws,2spacers,1heat sink,1pad AntennasANT-LTEUS-ASM-01GSM/GPRS/EDGE/UMTS/HSPA/LTE,1dBi,omnidirectional rubber-duck antennaANT-LTE-ASM-04BK704to960/1710to2620MHz,LTE omnidirectional stick antenna,4.5dBiANT-LTE-OSM-03-3m BK700-2700MHz,multiband antenna,specifically designed for2G,3G,and4G applications,3m cable ANT-LTE-ASM-05BK704-960/1710-2620MHz,LTE stick antenna,5dBiANT-LTE-OSM-06-3m BK MIMO Multiband antenna with screw-fastened mounting option for700-2700/2400-2500/5150-5850MHzfrequenciesANT-WDB-ARM-02022dBi at2.4GHz or2dBi at5GHz,RP-SMA(male),dual-band,omnidirectional antennaDIN-Rail Mounting KitsUC-8210DIN-rail Mounting Kit DIN-rail mounting kit for UC-8210with4M3screwsUC-8220DIN-rail Mounting Kit DIN-rail mounting kit for UC-8220with4M3screwsWall-Mounting KitsUC-8200Wall-mounting Kit Wall-mounting kit for UC-8200with4M3screws©Moxa Inc.All rights reserved.Updated Jul18,2023.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

Data Sheet 2101180-ACX RC 6490, X RC 6790, and X RC 6890X Series ProductsRemote Controller omputers (XFC)C ontrollers (XRC)This datasheet focuses on the X RC products, X Ser-ies Remote Controllers (RTUs). Benefits and fea-tures of these particular products include:Automation, control, alarming and data loggingBase IO targeted at low cost automation projects Local display and optional keypadQuick, easy installationFlexible communicationsComprehensive custody quality math and dataExtendable hardware and softwareX RC 6490, X RC 6790, and X RC 68902101180-AC2In addition to the local configuration port, two com-munications ports are supplied with the standard unit. These ports are modular and user se-lectable for RS232 and/orRS485. An additional port may be added using a TFIO Com-munications Module.HARDWARE MODULARITYHardware functionality of X Series devices can be extended in a flexible and simple way by adding modular IO as needed.Totalflow’s TFIO modules are designed to accommo-date low power, harsh environments at economical cost. The system recognizes the module types auto-matically and configures the IO Scanner subsystem accordingly.Supported TFIO Modules Include: • Analog In (8 channel) • Analog Out (4 channel)• Binary (DI, DO, PI-8 channels, software select-able)• RTD (4 channel)• Thermocouple (4 channel)• Valve Control (digital or analog)• Communications (software selectable RS232,485, 422-1 channel)For more detailed information about TFIO modules request information on datasheets 2101105 through 2101112.SOFTWARE MODULARITYA keenly flexible and stable real time environment, this software represents significant modularization through use of object oriented design principles. Totalflow supplied objects (applications) can be in-stantiated in our factory or by you, one or more times on the same device. It is this framework that allows the support for multi-tube measurement.Supported Software applications continually grow, but a sample of standard applications include: • AGA3 orifice meter run • ISO 5167 orifice meter run • VCone meter run• AGA7 rotary/turbine meter run • Real-time Data logger (trending) • Valve Control (Feedback controller) • RAMS (Alarming, Exception Reporting) • Operators (simple custom math / logic) • IEC 61131 (complex math / logic)• Selectable Units (user selectable engineering units)• Display / Keypad Handler • Wedge Meter (water or gas) • IO subsystem Handler • Tank Level Application • Therms master application • Therms slave application•Multiple protocols (Totalflow native low power, Modbus slave (binary/ASCII), Modbus master (binary/ASCII), LevelMaster, Btu 8000/8001, En-ron Modbus, MotorSaver, ABB 267CS/269CS XMV Multivariable, Altronic and others)X SERIES REMOTE CONTROLLER FEATURES• Significant hardening against over-current / tran-sients◊ Positive Temperature Coefficient, resettingfuses and transient protection on ∗ VBATT and SWVBATT Outputs ∗ Each of the Digital Outputs ∗ Battery Charger Input◊ EMI/RFI suppression beads on all I/O points ◊ Protection against reverse polarity wiring ◊ Power supply circuit designed to protectXIMV from hot insertion.• Base IO on RC195 Board◊ 5 Analog Inputs◊ 4 Digital Inputs (2 can be used as hi-speedPIs)◊ 4 Digital Outputs ◊ Battery Voltage ◊ Charger Voltage• Low power design operating as low as 8 ma(<100 mW)• Aluminum enclosure, powder coated• Flexible accommodation of communicationshardware• Cost effective communications kits • Stable time base (accurate integration) • Rechargeable, lead acid batteries • Solar, AC or DC charging options•Dual level security code data protectionX RC 6490, X RC 6790, and X RC 68902101180-AC3•Custody transfer applications◊ Monitors user limits for detection, and report-ing of abnormal conditions◊ Defaults to 45 Days of hourly and daily data.User configurable.◊ Defaults to 200 Events. User configurable. ◊ Complies with API 21.1 standard for custodytransfer devices◊ Flow and energy calculations per AGA3-85,AGA3-92, AGA-7, and AGA-5◊ Super compressibility calculations per NX-19or AGA8-92 Gross or Detail◊ Flow retention during user transducer calibra-tion◊ Selectable 3 or 5 point user calibration ofAnalog Ins◊ Zero flow detection• Class I, Division 2 Groups C and D, CSA C/US Hazardous Area Classifications (ATEX Zone 2 pending)• Real time clock that keeps running on lithium bat-tery• Advanced embedded data logger • Programmable alarm filtering • Exception reporting capability• Multiple protocol options including Totalflow packet protocol, various modbus protocols and others• User programmable modbus register maps • User programmable math and logic sequences • IEC 61131 Capability•Valve Control and Nominations CapabilityABCDA. RC195 BoardB. Communications Equipment CompartmentC. Battery CompartmentD. TFIO ModulesDimensions Width 12.756 in. (324.00 mm) 14.920 in. (379.53 mm) 20.090 in. (510.29 mm)Height 17.230 in. (437.64 mm) 21.845 in. (554.86 mm) 28.910 in. (734.32 mm)Depth 10.269 in. (260.83 mm) 13.710 in. (348.23 mm) 15.520 in. (394.21 mm)Installed Depth Pipe Mount 1.584 in. (294.23 mm) 14.56 in. (369.82 mm) 16.82 in. (427.23 mm)Wall Mount 11.019 in. (279.88 mm) 14.00 in. (355.60 mm) 16.26 in. (413.00 mm)Weight (w/o Battery) Approx. 15 lbs. (6.8 kg) Approx. 29 lbs. (13.1 kg) Approx. 45 lbs. (20.6 kg)Max IO Modules 3 6 14 Max Battery Capacity 26AH 42AH 140AHCertification CSA C/US Class 1, Division 2, Groups C & D hazardous area classification. (ATEX Zone 2 pending)Mounting Wall, pipe, or direct Operating Temperature(ambient)-40°F to 140°F (-40°C to 60°C) Humidity 0 - 95% non-condensingEMC Requirements EMMISSIONS:European Regions:EN55022 Class A Emissions (Radiated & Conducted) North America Regions:CFR 47, Part 15, Subpart B, Class A, FCC Emissions ICES-003 Issue 2, Rev. 1, Class A ITE Emissions IMMUNITY: European Regions:EN50082-1:98 ImmunityEN61000-4-2:95, ESD, + 8 kV Air, + 4 kV ContactEN61000-4-3:95 RF Immunity, 10 V/mEN61000-4-4:95 EFT, 1 kVEN61000-4-5:95 Surge; 1kV line to line, 2kV line to earth EN61000-4-6:95 Conducted Susceptibility, 3 VrmsEN610004-8:93 Power Frequency Magnetic Field 3 A/m EN610004-11:94 Voltage DIP and interrupt4Power and Productivity for a Better World. ™ /totalflowABB Inc.Totalflow Products 7051 Industrial Blvd. Bartlesville, OK 74006 Tel: (918) 338-4888 Fax: (918) 338-4699 (800) 442-3097 ABB Inc.Totalflow Products433 Northpark Central Dr., Ste. 100Houston, TX 77073Tel: (281) 869-5212Fax: (281) 869-5203(800) 442-3097For more information,please contact yourlocal ABB Totalflowrepresentative or visitour website.Power Nominal 12 VDC battery Charger Solar or 16-18 VDCMemory • Data stored in 512K SRAM. (lithium battery backup) • Applications programs stored in 512K Flash.• Flash loader stored in 512K PROM• Registry and Configuration files stored in 32K E2PROMComm Ports • 1 - dedicated – PCCU (Local Configuration Port) • 2 - RS232 or RS485 (via board insertion modules)LCD Interface Dedicated interface for 2 X 24 Liquid Crystal Display (LCD)Keypad Interface Dedicated interface for optional ABB supplied keypadIO Expansion I2C Bus Interface for TFIO ModulesSecurity Switch Dual-Level Security Switch On-BoardTime Base Stability ± 7.5 ppm (parts per million)IO Scan Rate 1 Time per SecondAnalog Inputs 5 single-ended channels, 0-10VdcAnalog-to-Digital Resolution 18 Bit maximum resolution (0.00038% FS)16 Bit nominal resolution (.0.0015%FS)Digital Inputs 4 inputs configurable as active or passive with optional software de-bounce Pulse Inputs 2 of the 4 digital inputs can be used as pulse inputs (up to 20KHz)Digital Outputs 4 open channel FET transistor switches。

KEEP IN TOUCH STAY CONNECTEDHIGH DEFINITION HDMI OUTPUTMULTI-TOUCH INTERFACEINTERNET MONITORING ON PC & MAC MOBILE CONNECTIVITYSLIM EDGE2 DESIGNFLEXIBLE INSTALLATIONHDTV-READYHigh Definition interface with HDMI output for easy connection to a TV.INTUITIVE TOUCH NAVIGATIONHigh resolution viewing and exceptional playback.PROFESSIONAL-GRADE VIDEO SURVEILLANCE An expandable system that you can depend on.ANTI-GLARE TECHNOLOGYGet clear images under any lighting conditions.SLIM YET POWERFULPowerful performance in a compact size. The smallest full-featured DVR in the market.KEEP IN TOUCH WITH YOUR WORLDUse your smartphone, tablet, PC, or Mac to connect, view and control your system.EASE OF USE, END TO ENDInternet setup wizard, triple touch operation and dedicated Apps give you the peace of mind at the tip of your fingers.REMOTE CONNECTIVITY & COMPATIBILITY*•Detail you can count on day and night. HD output (HDMI) with exceptional playback quality.•Keep in Touch with your world. Use your smart phone, tablet, PC or Mac to connect , view and control your system.•Reliability you can depend on. Powerful performance in a compact size. •Slim yet powerful. The smallest full-featured DVR in the market.•Ease of use, end to end. Internet setup wizard, touch operation and dedicated Apps give you the peace of mind at the tip of your fingers.•Finger -tip operation. Point, Tap, scroll and swipe to control your DVR.•Backup critical video the way that suits you best. USB external storage or remotely to your tablet or PC. Swipe-to-Switch. Dynamic allocation of camera position in live viewing mode.•Scroll-to-Search. Unique event log search while viewing playback footage for an efficient review of events that happened in the course of a day.ADDITIONAL FEATURES (DVR):•HDMI output in full 1080p – simple connection to HDTVs¹•Triple Touch Technology using a touch screen monitor², Light touch front panel controls, smartphones / tablets •24x7 100% duty cycle HDD•Pentaplex operation - View, Record, Playback, Backup & Remotely control the system simultaneously •Recording options : Motion, schedule or continuous •Small form factor (11.6 x 6.5 x 1.3”)• 3 x USB 2.0 ports (mouse, touch monitor, backup, firmware upgrade) •VESA Mount (easily mounts to the back of an LCD monitor) †† •“Flex” IR extender for remote control (line-of-sight not required) •Swipe-to-Switch dynamic allocation of camera location in live viewing•Intuitive search at your finger tips with multi-channel preview second by second •Scroll-to-Search through recorded event list with image preview•Covert camera feature allows the DVR administrator to monitor cameras while hiding them for regular users. •Multi-language interface (21 languages supported) •PTZ cameras supported (RS485)CONNECTIVITY•Instant Mobile Viewing on compatible Smartphones†•Dedicated iPad™ app with multi-channel live viewing, playback, backup & setup. •Exclusive LOREX Easy Connect Internet Set-up Wizard ³ •Lorex Edge Client Software: • PC (Microsoft Windows™ 7/Vista/XP compatible) using client software (included) & web browser. •Mac remote client software (included)•Free LOREX DDNS (Dynamic Domain Name Service) for advanced remote connectivity at all times •Instant e-mail alerts with snap shot attachments and web linkCOMPLIANCE:•CEC energy efficient power adapter •Energy efficient HDD •ROHS•Industry standard video inputs (BNC) and outputs (HDMI, VGA)DIGITAL VIDEO RECORDER:VESA MOUNT†† Easily mounts to the back of an LED or LCD monitor(requires clear access to the VESA mounting holes)INCLUDES21.5” TOUCH LED1080P (1920 x 1080)HDMI/VGA21.5” LED TOUCH MONITOR •Intuitive, optical, multi-touch screen operation •1080P (1920 x 1080) resolution•Built-in speakers•VESA standard mounting holes•Slim, energy efficient LED monitor•Super+ resolution sensor provides clear video day and night•IR Cut Filter provides accurate color reproduction in any lighting conditions •BrightNight and close-up recognition in the dark 4•Extreme temperature performance (–22°~122°F /–30°~50°C) •Anti-glare ensures clear images under strong lighting conditions •All purpose cameras with flex mounting for indoor or outdoor installation (IP66)5VIEW YOUR WORLD - IN SUPER + RESOLUTION.Capture More DetailloNG raNGe BriGHt-NiGHt ViewiNG extreMe teMperature perforMaNCeCLOSE-UP RECOGNITION IN THE DARKAuto-light compensation sensory prevents wash-out effect enabling facial identification.RELIABILITY IN THE EXTREMEInstall outdoors or indoors even in extreme temperatures.A SUPER + RESOLUTION PERSPECTIVEDetail you can count on Day & Night.CAMERA INSTALLATION DIAGRAMCameraFEATURES660TVL100FT NIGHT VISIONINDOOR/OUTDOORACCURATE COLORSTypicalAccurate colors with exclusiveinfrared filter technologyANTI-GLARETypicalWith anti-glare technology BRIGHT NIGH TTypicalImproved night vision with BrightNightCLOSE-UP RECOGNITIONTypicalImproved night vision with BrightNightTABLE MOUNTCEILING MOUNTWALL MOUNTExtreme Temperature Performance(-22˚ ~ 122˚F / -30˚ ~ 50˚C)MOUNTING OPTIONSCLOSE-UP RECOGNITIONANTI-GLARECOLOR REPRODUCTION NIGHT VISIONTypical NightVision CameraImproved Night Visionwith BrightNightTypical NightVision CameraNo Wash-out Effect withAuto Light Compensation TypicalCameraAccurate Colors with ExclusiveInfrared Filter TechnologyTypicalCameraWith Anti-glareTechnology•Super+ resolution with megapixel optics delivering crystal clearvideo at 660TV lines of resolution•BrightNight viewing with enhanced low-light image sensor•Close-up recognition at night with auto-light compensation preventswash-out effect•Anti-glare feature ensures clear images under strong lightingconditions•Accurate colors with Lorex’s automatic light filtering technology•Reliable camera operation coupled with patented ImageCool™technology ensures optimal performance in extreme temperatures(–22° ~ 122°F / –30° ~ 50°C)FEATURESVIEW YOUR WORLD -IN SUPER+ RESOLUTION.loNG raNGe BriGHt-NiGHt ViewingwiDe-aNGle CoVeraGetrue Color piCtureCLOSE-UP RECOGNITION IN THE DARKAuto-light compensation sensory prevents wash-out effect enabling facial identification.RELIABILITY IN THE EXTREMEAdvanced camera operation coupled with patented ImageCool™ Technologyensures optimal performance in extreme temperatures (–22° ~ 122°F).A SUPER+ RESOLUTION PERSPECTIVEDetail you can count on Day & NightHOME OFFICE RETAIL COMMERCIAL•Long range infrared (IR) night vision 100ft (30m)4•Split glass design minimizes IR reflection•3.6mm wide-angle lens captures a 78° Field of View (diagonal)6•Day / Night mode: picture automatically switches to B&W deliveringbetter clarity in low light conditions•Versatile mounting options: ceiling, counter or wall mountable•Weatherproof design: ideal for indoor and outdoor applications(IP66)5Extreme TemperaturePerformance(-22˚ ~ 122˚F / -30˚ ~ 50˚C)FEATURES660TVL100FT NIGHT VISIONINDOOR/OUTDOORDVR:SYSTEM Operating System:Linux (embedded)Pentaplex: Simultaneous View, Record, Playback, Backup & RemoteConfigurationNumber of Channels: 8/16 ChannelInputs/Outputs Video In: 8/16 x 1Vp-p, CVBS, 75ohms, BNC VGA Out: VGA compatible HDMI Out:HDMI compatibleAudio In: 1 Line in(RCA)Audio Out: 1 line out(RCA)USB Port: 2 front & 1 back PTZ Control:RS485Display Live Display: 1 or 4 or 9 (8ch), 1 or 4 or 9 or 16 (16ch)Live Display Speed: 240/480 (8/16ch NTSC)200/400 (8/16ch P AL)OSD:ON/OFF Activity Detection: 1200Sensitivity Levels:100System Control: USB Mouse, Front Panel Controls, Handheld RemoteControl, T ouch Screen (Windows 7 touch compatible)Firmware Upgrade: Via USB device User Authority: ADMIN/USER1/USER2Audio: 1-way audio conference (via network)RECORDING Video Compression: H.264 Audio Compression:PCMRecording Speed & Resolution: 8/16 Channel 240 /200 @ 352x240 / 352x256 (NTSC / P AL) 120 /100 @ 704x240 / 704x256 (NTSC / P AL)60 /50 @ 704x480 / 704x512 (NTSC / P AL)Recording Resolution Setting: Programmable per cameraRecording Quality Control: 5 levelsImage Size: 24 Kbyte (704x480), 12 Kbyte (704x240) 6 Kbyte(352x240)Recording Schedule: By hour. by day , by recording mode, by ChRecording Modes: Continuous, motion activated Pre Recording: Max. 10 seconds Post Recording: Max. 255 secondsReliability: W atch-Dog, Auto-recovery after power failure Covert Video:Dynamic allocation of camerasPLA YBACK Playback Display:1,4,9 (8ch), 1,4,9,16 (16ch)Instant Playback: for quick review of log events Playback Speed: V ariable (1, 5, 15, 60)Playback Player: Apple QuickTime multi-hour Player Backup Player: Apple QuickTime multi-hour Player Search:By time, event, scrollSTORAGE & ARCHIVE Storage:Up to 1 HDD (SA T A)Maximum Capacity: Up to 2TBBackup Media: USB Flash Drive (max 16GB)Backup File Format: MOV file (Codec included)Bookmark Archiving: SupportedCONNECTIVITY Easy Connect: Lorex Auto Port Forward Wizard Software:Edge Client Software for PC & MacSupported Operating Windows™: 7, Vista, XPSystems: Mac Browsers: Internet Explorer, Google Chrome (IE T ab) , MozillaFireFox (IE T ab)Email Notification: T ext with weblink & snap shot attachment Mobile Connectivity: iPad™ , iPhone™ - 4.0 and above, Blackberry™ -(supported model numbers: 9000, 9700, 9800),Android (version 2.1)DDNS: Free Lorex DDNSW eb Server Port: Programmable by User Network Protocol: LAN, DHCP , Dynamic IP , DDNS Network Interface:10/100-Base-TX, RJ-45Network Speed Control: 10 levels (28.8Kb ~ 1.5MB)/sec.GENERAL Power Consumption: Approx. 30 wattsSupply V oltage: 100V AC-240V AC, 12VDC, 2.5A, 50/60HzUnit Dimensions 11.6” x 6.2” x 1.1”(W x D x H): 295mm x 167.4mm x 34.0mmUnit W eight: 3.2 lbsOperating T emperature: 41° ~ 104° F / 5° ~ 40° CHumidity: 10 ~ 75% NCDisplay: 21.5” T ouchscreen LED Resolution: H: 1920 V: 1080Dots Distance: 0.248mm (H) x 0.248mm (V)Visible Range: 476.64mm (H) x 268.11mm (V)Power Source: 12V DC Power Requirement: 2.5APower Consumption: up to 30WOperating T emperature:23° ~ 113°F –5° ~ 45°CDimensions (including stand): 20.6” (L) x 14.4” (W) X 7.5” (D) 524mm (L) x 365mm (W) X 191mm (D)W eight (approx.):8.6lbs / 3.9kg21.5” TOUCH SCREEN LED MONITOR:CAMERA (CVC7660PK4B):Image Sensor 1/3” Color Image Sensor Video Format NTSCEffective Pixels H: 720 V: 480Resolution 660 TV Lines Scan System 2:1 Interlace Sync System Internal S / N Ratio 48dB (AGC Off)Iris AESAES Shutter Speed 1/60 ~ 1/25,000 sec.Min. Illumination 0.1 Lux without IR LED0 Lux with IR LEDVideo Output Composite 1.0Vpp @ 75ohm Lens / Lens Type 6.0mm F2.0 / Fixed FOV (Diagonal) 50°T ermination BNC Type IR LED Qty . / Type 18 pieces / 850nm Night Vision Range 100ft / 30m Power Requirement 12V DC ±10%Power Consumption Max. 280mA (w / IR)Operating T emp. Range-22° ~ 122°F / –30° ~ 50°COperating Humidity Range < 90% RH Environmental Rating IP66W eight (including stand)0.6lbs / 0.3kgCAMERA (CVC7662PK4B):Image Sensor 1/3” Color Image Sensor Video Format NTSCEffective Pixels H: 720 V: 480Resolution 660 TV Lines Scan System 2:1 Interlace Sync System Internal S / N Ratio 48dB (AGC Off)IrisAESAES Shutter Speed1/60 ~ 1/25,000 sec.Min. Illumination 0.1 Lux without IR LED0 Lux with IR LED Video Output Composite 1.0Vpp @ 75ohm Lens / Lens Type 3.6mm F2.0 / Fixed FOV (Diagonal) 78°T ermination BNC Type IR LED Qty . / Type 18 pieces / 850nm Night Vision Range 100ft / 30m Power Requirement 12V DC ±10%Power Consumption Max. 280mA (w / IR)Operating T emp. Range-22° ~ 122°F / –30° ~ 50°C Operating Humidity Range < 90% RH Environmental Rating IP66W eight (including stand)0.6lbs / 0.3kg©2012 Lorex Technology Inc.MODELCONFIGURATION PACKAGE W x D x H - Inches & mm WEIGHT CUBE UPC Code LH33841T22B8 ch Edge2 DVR x 4 (660) TVL Cameras (CVC7660PK4B) x 1TB HDD x 21.5” LED Touch Monitor Brown Box658mm x 320mm x 470mm/ 25.9” x 12.6” x 18.5”28.6lbs / 12.9kg0.09786 CBM / 3.49486 CBF7-78597-33803-4LH3381001C4T22B 8 ch Edge2 DVR x 4 (660) TVL Cameras (CVC7660PK4B) x 1TB HDD x 21.5” LED Touch Monitor Brown Box658mm x 320mm x 470mm/ 25.9” x 12.6” x 18.5” 28.6lbs / 12.9kg 0.09786 CBM / 3.49486 CBF7-78597-33806-5LH3381001C8T22B 8 ch Edge2 DVR x 8 (660) TVL Cameras (CVC7660PK4B) x 1TB HDD x 21.5” LED Touch Monitor Brown Box658mm x 320mm x 470mm/ 25.9” x 12.6” x 18.5”35.1lbs / 15.9 kg 0.09786 CBM / 3.49486 CBF7-78597-33804-1LH3361001C8T22B 16 ch Edge2 DVR x 8 (660) TVL Cameras (CVC7662PK4B) x 1TB HDD x 21.5” LED Touch Monitor Brown Box658mm x 320mm x 470mm/ 25.9” x 12.6” x 18.5”35.1lbs / 15.9 kg 0.09786 CBM / 3.49486 CBF7-78597-33608-5LH36811T22B 16 ch Edge2 DVR x 8 (660) TVL Cameras (CVC7662PK4B) x 1TB HDD x 21.5” LED Touch Monitor Brown Box658mm x 320mm x 470mm/ 25.9” x 12.6” x 18.5”35.1lbs / 15.9 kg 0.09786 CBM / 3.49486 CBF7-78597-36811-6LH338811T22B 8 ch Edge2 DVR x 8 (660) TVL Cameras (CVC7662PK4B) x 1TB HDD x 21.5” LED Touch MonitorBrown Box658mm x 320mm x 470mm/ 25.9” x 12.6” x 18.5”35.1lbs / 15.9 kg 0.09786 CBM / 3.49486 CBF7-78597-33881-2INCLUDES8 or 16 Channel DVR with pre-installed HDD, Remote Control, Flex IR, Mouse, Ethernet Cable, 2 screws (for key-hole style VESA mounting), Power Adapter, Quick Start Guide, User Manual, CD with Client Software and Auto Port Forward Wiz-ard, 4 or 8 x Cameras, 4 or 8 x Camera Stands, 4 or 8 x 60ft BNC/DC Extension Cables, 1 or 2 x 4 in 1 Camera Power Adaptor(s), LED Touch Screen Monitor & Stand, Power Adapter, HDMI Cable, VGA Cable, USB Cable, RCA Cable.DVR Inputs & OutputsPRODUCT INFORMATIONProduct Information:DISCLAIMERS:1. HDMI output 1080p (1920x1080) for high definition multi-channel live viewing only. High definition recording not supported, recording resolution is limited to a maximum of 704x480 per channel. Image quality and resolution is dependent on the type of camera connected to the DVR.2. Touch operation with Windows™ 7 Touch compatible touch screen monitor via USB connection.3. Requires a high speed internet connection and a router (not included).4. IR illumination range under ideal conditions. Objects at or beyond this range may be partially or completely obscured, depending on the camera application.5. Not intended for submersion in water. Installation in a sheltered location recommended.† Instant Mobile Viewing on iPad™, iPhone™ , BlackBerry (supported model numbers: 9000, 9700, 9800) and Android (version 2.1). Selectable one channel live viewing. Mobile phone data plan is required (not included). Router port forwarding required. For the latest smart phone compatibility list check as new smart phone models become available in the market.†† Easily mounts to the back of an LCD monitor with VESA standard mounting holes and an independent stand. Requires clear access to the 75 x 75, 100 x100 & 200 x 200 mm VESA mounting holes.All trademarks belong to their respective owners. No claim is made to the exclusive right to use the trademarks listed, other than the trademarks owned by Lorex Technology Inc. We reserve the right to change models, configurations or specifications without notice or liability. Product may not be exactly as shown. Images are simulated.Dimensions:294mm/11.6” W157mm/6.2” D。

SY88212LOptical Evaluation BoardMicrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • General DescriptionThis evaluation board allows for checking the performance of the SY88212 burst mode driver while driving a laser.Datasheet and support documentation can be found on Micrel's web site at: .Features∑ Open loop or close-loop operation∑Manual modulation, biasmax and bias settingRelated Support Documentation∑SY88212L Datasheet_______________________________________________________________________________________________________Evaluation BoardTOSA InstallationCheck the pin-out of the laser and install according tothe diagrams shown in Figure 1.Figure 1. Mounting of the LaserEvaluation Board Setting and OperationThe SY88216 evaluation is used to evaluate the SY88212 since the two parts are pin-compatible at the exception that pin 10 (APCFAULT) is active HIGH in SY88212 and active LOW in SY88216.1. Connect BEN- to GND or/and connect BEN+to V CC or remove R17 and R18.2. Install a jumper on SW3 to enable the driver.3. Adjust potentiometers VR2 (BIASMAX), VR3(MODSET), and VR4 (BIASSET) completely counterclockwise to set bias and modulation currents to zero “0” before powering the board.4. If the inputs DIN+/DIN- are DC-coupled, setthe output of the pattern generator high level within the range 0.5V-2V, first. Then connect the input (DIN+/DIN-) to the output of the pattern generator.5. Connect the laser output to the optical moduleof the scope with a SMF jumper.6. Open Loop Operation: Install a jumper onSW2 (MOD ON) and make sure that there is no jumper on SW4 (PD-MD).7. Connect 3.3V to TP9 (red) and GND to TP10(black) to power the board.8. Turn VR2 (BIASMAX) clockwise, BIASMAXsets the bias current in open loop, to increase the bias current until the laser starts output some light then turn VR3 clockwise to setmodulation current. Keep adjusting bias (VR2)and modulation (VR3) until an acceptable eye diagram is seen on the scope.9. Bias Current can be deduced from the voltageacross R7 between TP4 and TP6.I BIAS = (V TP6 – V TP4) / R710. The voltage between TP11 (BIASMON) andGND (across R4) is proportional to (Bias Current + Half modulation current):(I BIAS + I MOD / 2) / 50 = V R4 / R411. Close-loop operation: Install jumpers on SW1(BIAS ON) and SW4 (PD-MD) to close the loop and turn VR4 clockwise to increase the bias current. Keep adjusting BIASSET (VR4)and modulation (VR3) until an acceptable eye diagram is seen on the scope.PerformanceFigure 2. Optical Eye Diagram 1.25Gbps with 2.3G FilterLaser Response TuningOvershoot/UndershootThe damping resistors R21 and R22 installed in series with the laser are 10Ω. This value might be changed to a higher value to minimize or suppress any overshoot or undershoot on the optical signal out of the laser, but keep in mind that higher value damping resistors will lead to higher rise/fall time and lower maximum modulation current.The user can adjust the values of (R19, C8) and/or (R8, C9) to get better performance with his laser.Evaluation Board SchematicPCB Layout/AssemblyBill of MaterialsItem Part Number Manufacturer Description Qty. C1-5, C10Vishay(1)0.1m F, Size 0402, Ceramic Capacitor6 C6, C7ECSH0GY106R Panasonic(2)10m F, Y, Tantalium Solid Electrolytic Capacitor2 C8Vishay(1)5pF, Size 0402, Ceramic Capacitor1 D167-1636-1-ND Digikey(3)Red LED1 J1, J3-5142-0701-851JohnsonSMA End Launch Receptacle Connector4Components(4)J2Vishay(1)TOSA, Laser Subassembly1 L1Vishay(1) 1.2m H Ferrite Bead Inductor, Size 12061 L2Vishay(1)0W Resistor1 L3Vishay(1) 1.2m H Ferrite Bead Inductor, Size 08051 Q3, Q4MMTB3906WT1ON Semiconductor(5)N-MOSFET2 CRCW04020R00F Vishay(1)0W Resistor3 R6, R13,R14CRCW040210R0F Vishay(1)10W Resistor5 R3, R7, R9,R21, R22R19CRCW040275R0F Vishay(1)75W Resistor1 R16, R18CRCW040282R0F Vishay(1)82W Resistor2 R1, R2, R4CRCW04021000F Vishay(1)100W Resistor3 R15, R17CRCW04021300F Vishay(1)130W Resistor2 R12CRCW04022700F Vishay(1)270W Resistor1 R11CRCW04021002F Vishay(1)10k W Resistor1 TSW-1-2-07-G-S Samtec(6)Header, 2 positions4 SW1, SW2,SW3, SW4TP105011Keystone(7)Color Coded PCB test point, Black1 TP1-TP8,5014Keystone(7)Color Coded PCB test point, Yellow9 TP11TP95010Keystone(7)Color Coded PCB test point, Red1 U1SY88212L Micrel, Inc.(8) 2.5G Burst Mode Laser Driver1 3269 W-1-503 GLF Bourns(9)50K SMD Trimming Potentiometer3 VR2, VR3,VR4Notes:1.Vishay: .2.Panasonic: .3. Digikey: .4. Johnson components: .5. ON Semiconductor: .6.Samtec: .7. Keystone: .8. Micrel, Inc.: .9. Bourns: .HBW SupportHotline: 408-955-1690Email Support: ******************。

Scenix™ and the Scenix logo are trademarks of Scenix Semiconductor, Inc.I 2C™ is a trademark of Philips CorporationMicrowire™ is a trademark of National Semiconductor CorporationAll other trademarks mentioned in this document are property of their respec-tive companies.January 19, 2000SX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC75Configurable Communications Controllers with EE/Flash Program Memory, In-System Programming Capability and On-Chip Debug1.0PRODUCT OVERVIEW1.1IntroductionThe Scenix SX family of configurable communications controllers are fabricated in an advanced CMOS process technology. The advanced process, combined with a RISC-based architecture, allows high-speed computa-tion, flexible I/O control, and efficient data manipulation.Throughput is enhanced by operating the device at fre-quencies up to 50/75 MHz and by optimizing the instruc-tion set to include mostly single-cycle instructions. In addition, the SX architecture is deterministic and totally reprogramable. The unique combination of these charac-teristics enables the device to implement hard real-time functions as software modules (Virtual Peripheral™) to replace traditional hardware functions.On-chip functions include a general-purpose 8-bit timer with prescaler, an analog comparator, a brown-out detec-tor, a watchdog timer, a power-save mode with multi-source wakeup capability, an internal R/C oscillator, user-selectable clock modes, and high-current outputs.Figure 1-1. Block DiagramInterrupt MIW U Port B C ompPow er-O n R eset RESET 8-bit W atchdog Tim er (W DT)8-bit Tim er RTC C 888Port C 88Port A 84Internal D ata BusIn-System D ebugging In-System Programm ing2k W ords EEPRO M SystemC lockBrow n-O ut MIW U M C LR O SC D river 4M Hz InternalR C OSCClock Select ÷ 4 or ÷ 1136 BytesSR AM Address W rite D ataR ead D ata Instruction W FSRSTATU S PC M O D EOPTIO N System C lockOSC 1O SC2Fetch 8812Address 128888ALU 8883RTC CAnalog 8Interrupt StackPC3 Level Decode ExecutiveW rite BackIR EADStack Instruction Pipeline Prescaler for R TCC or Prescaler for W DTSX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC75Table of Contents1.0Product Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11.1Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11.2Key Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31.3Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41.3.1The Virtual Peripheral Concept . . . . . . . .41.3.2The Communications Controller. . . . . . . .41.4Programming and Debugging Support . . . . . . . . . .41.5Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42.0Connection Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52.1Pin Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . .52.2Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . .52.3Part Numbering . . . . . . . . . . . . . . . . . . . . . . . . . . .63.0Port Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73.1Reading and Writing the Ports . . . . . . . . . . . . . . . . .73.1.1Read-Modify-Write Considerations . . . . .93.2Port Configuration . . . . . . . . . . . . . . . . . . . . . . . . . .93.2.1MODE Register . . . . . . . . . . . . . . . . . . . .93.2.2Port Configuration Registers . . . . . . . . . .93.2.3Port Configuration Upon Reset . . . . . . .104.0Special-Function Registers . . . . . . . . . . . . . . . . . . . . . . . . .114.1PC Register (02h) . . . . . . . . . . . . . . . . . . . . . . . . .114.2STATUS Register (03h) . . . . . . . . . . . . . . . . . . . . .114.3OPTION Register . . . . . . . . . . . . . . . . . . . . . . . . . .125.0Device Configuration Registers . . . . . . . . . . . . . . . . . . . . .135.1FUSE Word (Read/Program at FFFh in main memorymap) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .135.2FUSEX Word (Read/Program via ProgrammingCommand) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .145.3DEVICE Word (Hard-Wired Read-Only) . . . . . . . .146.0Memory Organization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .156.1Program Memory . . . . . . . . . . . . . . . . . . . . . . . . . .156.1.1Program Counter . . . . . . . . . . . . . . . . . .156.1.2Subroutine Stack . . . . . . . . . . . . . . . . . .156.2Data Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . .156.2.1File Select Register (04h) . . . . . . . . . . .157.0Power Down Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .177.1Multi-Input Wakeup . . . . . . . . . . . . . . . . . . . . . . . .177.2Port B MIWU/Interrupt Configuration . . . . . . . . . . .188.0Interrupt Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .199.0Oscillator Circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .219.1XT, LP or HS modes . . . . . . . . . . . . . . . . . . . . . . .219.2External RC Mode . . . . . . . . . . . . . . . . . . . . . . . . .239.3Internal RC Mode . . . . . . . . . . . . . . . . . . . . . . . . . .2310.0Real Time Clock (RTCC)/Watchdog Timer . . . . . . . . . . . . .2310.1RTCC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2310.2Watchdog Timer . . . . . . . . . . . . . . . . . . . . . . . . . . .2310.3The Prescaler . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2411.0Comparator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2512.0Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2713.0Brown-Out Detector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2814.0Register States Upon DiffeRent reset operations . . . . . . .2915.0Instruction Set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3015.1Instruction Set Features . . . . . . . . . . . . . . . . . . . . .3015.2Instruction Execution . . . . . . . . . . . . . . . . . . . . . . .3015.3Addressing Modes . . . . . . . . . . . . . . . . . . . . . . . . .3015.4RAM Addressing . . . . . . . . . . . . . . . . . . . . . . . . . .3115.5The Bank Instruction . . . . . . . . . . . . . . . . . . . . . . .3115.6Bit Manipulation . . . . . . . . . . . . . . . . . . . . . . . . . . .3115.7Input/Output Operation . . . . . . . . . . . . . . . . . . . . . .3115.8Increment/Decrement . . . . . . . . . . . . . . . . . . . . . . .3115.9Loop Counting and Data Pointing Testing . . . . . . .3115.10Branch and Loop Call Instructions . . . . . . . . . . . . .3115.10.1Jump Operation . . . . . . . . . . . . . . . . . . .3115.10.2Page Jump Operation . . . . . . . . . . . . . .3215.10.3Call Operation . . . . . . . . . . . . . . . . . . . .3215.10.4Page Call Operation . . . . . . . . . . . . . . . .3215.11Return Instructions . . . . . . . . . . . . . . . . . . . . . . . . .3215.12Subroutine Operation . . . . . . . . . . . . . . . . . . . . . . .3315.12.1Push Operation . . . . . . . . . . . . . . . . . . .3315.12.2Pop Operation . . . . . . . . . . . . . . . . . . . .3315.13Comparison and Conditional Branch Instructions .3415.14Logical Instruction . . . . . . . . . . . . . . . . . . . . . . . . .3415.15Shift and Rotate Instructions . . . . . . . . . . . . . . . . .3415.16Complement and SWAP . . . . . . . . . . . . . . . . . . . .3415.17Key to Abbreviations and Symbols . . . . . . . . . . . . .3416.0Instruction Set Summary Table . . . . . . . . . . . . . . . . . . . . . .3516.1Equivalent Assembler Mnemonics . . . . . . . . . . . . .3817.0Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . .3917.1Absolute Maximum Ratings . . . . . . . . . . . . . . . . . .3917.2DC Characteristics . . . . . . . . . . . . . . . . . . . . . . . . .4017.3AC Characteristics . . . . . . . . . . . . . . . . . . . . . . . . .4117.4DC Characteristics . . . . . . . . . . . . . . . . . . . . . . . . .4217.5AC Characteristics . . . . . . . . . . . . . . . . . . . . . . . . .4317.6Comparator DC and AC Specifications . . . . . . . . .4317.7Typical Performance Characteristics. . . . . . . . . . . .4418.0Package Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47SX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC751.2Key Features50 MIPS Performance•SX18AC/SX20AC/SX28AC: DC - 50 MHz operation SX18AC75/SX20AC75/SX28AC75: DC - 75 MHz •SX18AC/SX20AC/SX28AC: 20 ns instruction cycle,60 ns internal interrupt responseSX18AC75/SX20AC75/SX28AC75: 13.3 ns instruction cycle, 39.9 ns internal interrupt response• 1 instruction per clock (branches 3)EE/FLASH Program Memory and SRAM Data Memory •Access time of < 10 ns provides single cycle access •EE/Flash rated for > 10,000 rewrite cycles•2048 Words EE/Flash program memory•136x8 bits SRAM data memoryCPU Features•Compact instruction set•All instructions are single cycle except branch•Eight-level push/pop hardware stack for subroutine linkage•Fast table lookup capability through run-time readable code (IREAD instruction)•Totally predictable program execution flow for hard real-time applicationsFast and Deterministic Interrupt•Jitter-free 3-cycle internal interrupt response •Hardware context save/restore of key resources such as PC, W, STATUS, and FSR within the 3-cycle inter-rupt response time•External wakeup/interrupt capability on Port B (8 pins)Flexible I/O•All pins individually programmable as I/O•Inputs are TTL or CMOS level selectable•All pins have selectable internal pull-ups •Selectable Schmitt Trigger inputs on Ports B, and C •All outputs capable of sourcing/sinking 30 mA•Port A outputs have symmetrical drive•Analog comparator support on Port B (RB0 OUT, RB1 IN-, RB2 IN+)•Selectable I/O operation synchronous to the oscillator clock Hardware Peripheral Features•One 8-bit Real Time Clock/Counter (RTCC) with pro-gramable 8-bit prescaler•Watchdog Timer (shares the RTCC prescaler)•Analog comparator•Brown-out detector•Multi-Input Wakeup logic on 8 pins•Internal RC oscillator with configurable rate from 31.25 kHz to 4 MHz•Power-On-ResetPackages•18-pin SOP/DIP, 20-pin SSOP, 28-pin SOP/DIP/SSOPProgramming and Debugging Support•On- chip in-system programming support with serial and parallel interfaces•In-system serial programming via oscillator pins•On-chip in-System debugging support logic•Real-time emulation, full program debug, and integrat-ed development environment offered by third party tool vendorsSX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC751.3ArchitectureThe SX devices use a modified Harvard architecture. This architecture uses two separate memories with sepa-rate address buses, one for the program and one for data, while allowing transfer of data from program mem-ory to SRAM. This ability allows accessing data tables from program memory. The advantage of this architec-ture is that instruction fetch and memory transfers can be overlapped with a multi-stage pipeline, which means the next instruction can be fetched from program memory while the current instruction is being executed using data from the data memory.Scenix has developed a revolutionary RISC-based archi-tecture and memory design techniques that is 20 times faster than conventional MCUs, deterministic, jitter free, and totally reprogramable.The SX family implements a four-stage pipeline (fetch, decode, execute, and write back), which results in execu-tion of one instruction per clock cycle. For example, at the maximum operating frequency of 50 MHz, instruc-tions are executed at the rate of one per 20-ns clock cycle.1.3.1 The Virtual Peripheral ConceptVirtual Peripheral concept enables the “software system on a chip” approach. Virtual Peripheral, a software mod-ule that replaces a traditional hardware peripheral, takes advantage of the Scenix architecture’s high performance and deterministic nature to produce same results as the hardware peripheral with much greater flexibility.The speed and flexibility of the Scenix architecture com-plemented with the availability of the Virtual Peripheral library, simultaneously address a wide range of engineer-ing and product development concerns. They decrease the product development cycle dramatically, shortening time to production to as little as a few days.Scenix’s time-saving Virtual Peripheral library gives the system designers a choice of ready-made solutions, or a head start on developing their own peripherals. So, with Virtual Peripheral modules handling established func-tions, design engineers can concentrate on adding value to other areas of the application.The concept of Virtual Peripheral combined with in-sys-tem re-programmability provides a power development platform ideal for the communications industry because of the numerous and rapidly evolving standards and pro-tocols.Overall, the concept of Virtual Peripheral provides bene-fits such as using a more simple device, reduced compo-nent count, fast time to market, increased flexibility in design, customization to your application, and ultimately overall system cost reduction.Some examples of Virtual Peripheral modules are:•Communication interfaces such as I2C™, Microwire™ (µ-Wire), SPI, IrDA Stack, UART, and Modem func-tions•Frequency generation and measurement•PPM/PWM output •Delta/Sigma ADC•DTMF generation/detection•PSK/FSK generation/detection•FFT/DFT based algorithms1.3.2 The Communications ControllerThe combination of the Scenix hardware architecture and the Virtual Peripheral concept create a powerful, creative platform for the communications design communities: SX communications controller. Its high processing power, recofigurability, cost-effectiveness, and overall design freedom give the designer the power to build products for the future with the confidence of knowing that they can keep up with innovation in standards and other areas. 1.4Programming and Debugging Support The SX devices are currently supported by third party tool vendors. On-chip in-system debug capabilities have been added, allowing tools to provide an integrated development environment including editor, macro assem-bler, debugger, and programmer. Un-obtrusive in-system programming is provided through the OSC pins. There is no need for a bon-out chip, so the user does not have to worry about the potential variations in electrical charac-teristics of a bond-out chip and the actual chip used in the target applications. the user can test and revise the fully debugged code in the actual SX, in the actual application, and get to production much faster.1.5ApplicationsEmerging applications and advances in existing ones require higher performance while maintaining low cost and fast time-to-production.The device provides solutions for many familiar applica-tions such as process controllers, electronic appli-ances/tools, security/monitoring systems, consumer automotive, sound generation, motor control, and per-sonal communication devices. In addition, the device is suitable for applications that require DSP-like capabili-ties, such as closed-loop servo control (digital filters), dig-ital answering machines, voice notation, interactive toys, and magnetic-stripe readers.Furthermore, the growing Virtual Peripheral library fea-tures new components, such as the Internet Protocol stack, and communication interfaces, that allow design engineers to embed Internet connectivity into all of their products at extremely low cost and very little effort.SX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC752.0CONNECTION DIAGRAMS 2.1Pin Assignments2.2Pin DescriptionsSSOP123456781615RC4RC3RB6RB5SX 28-PINOSC2RC7RC6RC5V dd V ddRA2RA3RB0RB1RB2RB3RB4VssMCLR OSC1RC2RC1RC0RB791011121314282726252423222120191817Vss RTCC RA0RA1123456781615RC4RC3RB6RB5SX 28-PINOSC2RC7RC6RC5n.c.Vss RA2RA3RB0RB1RB2RB3RB4MCLR OSC1RC2RC1RC0RB791011121314282726252423222120191817RTCC V ddRA0RA1n.c.DIP/SOP 123456781615RB5RB4SX 20-PINOSC2RTCC RA0RB0RB1RB2RB3MCLR OSC1V dd V ddRB7RB69101413121120191817RA2RA3Vss RA1Vss SSOP123456781615RB5RB4SX 18-PINOSC2RTCC RA0RB0RB1RB2RB3MCLR OSC1V ddRB7RB6910141312111817RA2RA3RA1Vss DIP/SOPNamePin Type Input LevelsDescriptionRA0I/O TTL/CMOS Bidirectional I/O Pin; symmetrical source / sink capability RA1I/O TTL/CMOS Bidirectional I/O Pin; symmetrical source / sink capabilityRA2I/O TTL/CMOSBidirectional I/O Pin; symmetrical source / sink capability RA3I/O TTL/CMOS Bidirectional I/O Pin; symmetrical source / sink capability RB0I/O TTL/CMOS/ST Bidirectional I/O Pin; comparator output; MIWU input RB1I/O TTL/CMOS/ST Bidirectional I/O Pin; comparator negative input; MIWU input RB2I/O TTL/CMOS/ST Bidirectional I/O Pin; comparator positive input; MIWU input RB3I/O TTL/CMOS/ST Bidirectional I/O Pin; MIWU input RB4I/O TTL/CMOS/ST Bidirectional I/O Pin; MIWU input RB5I/O TTL/CMOS/ST Bidirectional I/O Pin; MIWU input RB6I/O TTL/CMOS/ST Bidirectional I/O Pin; MIWU input RB7I/O TTL/CMOS/ST Bidirectional I/O Pin; MIWU input RC0I/O TTL/CMOS/ST Bidirectional I/O pin RC1I/O TTL/CMOS/ST Bidirectional I/O pin RC2I/O TTL/CMOS/ST Bidirectional I/O pin RC3I/O TTL/CMOS/ST Bidirectional I/O pin RC4I/O TTL/CMOS/ST Bidirectional I/O pin RC5I/O TTL/CMOS/ST Bidirectional I/O pin RC6I/O TTL/CMOS/ST Bidirectional I/O pin RC7I/O TTL/CMOS/ST Bidirectional I/O pinRTCC I STInput to Real-Time Clock/Counter MCLR I ST Master Clear reset input – active low OSC1/In/Vpp I ST Crystal oscillator input – external clock source inputOSC2/Out O CMOSCrystal oscillator output – in R/C mode, internally pulled to V dd through weakpull-upV dd P –Positive supply pin Vss P –Ground pin Note:I = input, O = output, I/O = Input/Output, P = Power, TTL = TTL input, CMOS = CMOS input,ST = Schmitt Trigger input, MIWU = Multi-Input Wakeup inputSX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC752.3Part NumberingTable 2-1. Ordering InformationDevicePinsI/OOperating Frequency (MHz)EE/Flash (Words)RAM (Bytes)Operating Temp. (°C)SX18AC/SO SX18AC-I/SO SX18AC75/SO 1818181212125050752K 2K 2K 1361361360°C to +70°C -40°C to +85°C 0°C to +70°C SX18AC/DP SX18AC-I/DP SX18AC75/DP 1818181212125050752K 2K 2K 1361361360°C to +70°C -40°C to +85°C 0°C to +70°C SX20AC/SS SX20AC-I/SS SX20AC75/SS 2020201212125050752K 2K 2K 1361361360°C to +70°C -40°C to +85°C 0°C to +70°C SX28AC/SO SX28AC-I/SO SX28AC75/SO 2828282020205050752K 2K 2K 1361361360°C to +70°C -40°C to +85°C 0°C to +70°C SX28AC/DP SX28AC-I/DP SX28AC75/DP 2828282020205050752K 2K 2K 1361361360°C to +70°C -40°C to +85°C 0°C to +70°C SX28AC/SS SX28AC-I/SS SX28AC75/SS2828282020205050752K 2K 2K1361361360°C to +70°C -40°C to +85°C 0°C to +70°CFigure 2-1. Part Number Reference GuideSX18ACXX-I/SOPackage TypeExtended Temperature Memory Size Feature Set Pin Count SceniXA =512 wordB =1k wordC =2k wordD =4k word Speed Blank =50 MHz 75 =75 MHz 100 =100 MHzDP =DIP SO =SOP SS =SSOP TQ =Tiny PQFP PQ =PQFPBlank =0°C to +70°C I =-40°C to +85°CSX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC753.0PORT DESCRIPTIONSThe device contains a 4-bit I/O port (Port A) and two 8-bit I/O ports (Port B, Port C). Port A provides symmetrical drive capability. Each port has three associated 8-bit reg-isters (Direction, Data, TTL/CMOS Select, and Pull-Up Enable) to configure each port pin as Hi-Z input or output,to select TTL or CMOS voltage levels, and to enable/dis-able the weak pull-up resistor. The upper four bits of the registers associated with Port A are not used. The least significant bit of the registers corresponds to the least significant port pin. T o access these registers, an appro-priate value must be written into the MODE register.Upon power-up, all bits in these registers are initialized to “1”.The associated registers allow for each port bit to be indi-vidually configured under software control as shown below:3.1Reading and Writing the PortsThe three ports are memory-mapped into the data mem-ory address space. To the CPU, the three ports are avail-able as the RA, RB, and RC file registers at data memory addresses 05h, 06h, and 07h, respectively.Writing to a port data register sets the voltage levels of the corresponding port pins that have been configured to operate as outputs. Reading from a register reads the voltage levels of the corresponding port pins that have been configured as inputs.Table 3-1. Port ConfigurationData Direction Registers: RA, RB, RCTTL/CMOSSelect Registers: LVL_A, LVL_B, LVL_CPullup Enable Registers:PLP_A, PLP_B, PLP_C010101OutputHi-Z InputCMOSTTLEnableDisableFigure 3-1. Port A ConfigurationMODE RA RA DataLVL_A 0 = Output 1 = Hi-Z InputWRWR0 = CMOS 1 = TTL RDTTL Buffer CMOS Buffer V ddPullupPort A PINI n t e r n a l D a t a B u sMU XM o d e = 0F M o d e = 0E M o d e = 0DWRDirection PLP_A0 = Pullup Enable 1 = Pullup Disable Port A INPUTWRSX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC75For example, suppose all four Port A pins are configuredas outputs and with RA0 and RA1 to be high, and RA2and RA3 to be low:The second “mov” instruction in this example writes the Port A data register (RA), which controls the output levels of the four Port A pins, RA0 through RA3. Because Port A has only four I/O pins, only the four least significant bits of this register are used. The four high-order register bits are “don’t care” bits. Port B and Port C are both eight bits wide, so the full widths of the RB and RC registers are used.When a write is performed to a bit position for a port that has been configured as an input, a write to the port data register is still performed, but it has no immediate effect on the pin. If later that pin is configured to operate as an output, it will reflect the value that has been written to the data register.When a read is performed from a bit position for a port,the operation is actually reading the voltage level on the pin itself, not necessarily the bit value stored in the port data register. This is true whether the pin is configured to operate as an input or an output. Therefore, with the pin configured to operate as an input, the data register con-tents have no effect on the value that you read. With the pin configured to operate as an output, what is read gen-erally matches what has been written to the register.Figure 3-2. Port B, Port C ConfigurationMODE RB or RC PLP_B or PLP_CLVL_B or LVL_C 0 = Output 1 = Hi-Z InputWR0 = Pullup Enable 1 = Pullup Disable WR0 = CMOS 1 = TTLRDPort B: Input, MIWU, Comparator V ddPullup Resistor (~20k Ω)Port B or I n t e r n a l D a t a B u sM U XM o d e = 0F M o d e = 0E M o d e = 0D M o d e = 0CWRST_B or ST_CWR0 = Schmitt Trigger Enable 1 = Schmitt Trigger Disable Port C: Input OnlyTTL Buffer CMOS Buffer MU XPort C PINSchmitt Trigger BufferDirection RB or RC WRData~~mov W,#$03;load W with the value 03h ;(bits 0 and 1 high)mov$05,W;write 03h to Port A data ;registerSX18AC/SX20AC/SX28AC/SX18AC75/SX20AC75/SX28AC753.1.1 Read-Modify-Write ConsiderationsCaution must be exercised when performing two succes-sive read-modify-write instructions (SETB or CLRB oper-ations) on I/O port pin. Input data used for an instruction must be valid during the time the instruction is executed, and the output result from an instruction is valid only after that instruction completes its operation. Unexpected results from successive read-modify-write operations on I/O pins can occur when the device is running at high speeds. Although the device has an internal write-back section to prevent such conditions, it is still recom-mended that the user program include a NOP instruction as a buffer between successive read-modify-write instructions performed on I/O pins of the same port.Also note that reading an I/O port is actually reading the pins, not the output data latches. That is, if the pin output driver is enabled and driven high while the pin is held low externally, the port pin will read low.3.2Port ConfigurationEach port pin offers the following configuration options: •data direction•input voltage levels (TTL or CMOS)•pullup type (pullup resistor enable or disable)•Schmitt trigger input (for Port B and Port C only)Port B offers the additional option to use the port pins for the Multi-Input Wakeup/Interrupt function and/or the ana-log comparator function.Port configuration is performed by writing to a set of con-trol registers associated with the port. A special-purpose instruction is used to write these control registers: •mov !RA,W (move W to Port A control register)•mov !RB,W (move W to Port B control register)•mov !RC,W (move W to Port C control register)Each one of these instructions writes a port control regis-ter for Port A, Port B, or Port C. There are multiple control registers for each port. To specify which one you want to access, you use another register called the MODE regis-ter.3.2.1 MODE RegisterThe MODE register controls access to the port configura-tion registers. Because the MODE register is not mem-ory-mapped, it is accessed by the following special-purpose instructions:•mov M, #lit (move literal to MODE register)•mov M,W (move W to MODE register)•mov W,M (move MODE register to W)The value contained in the MODE register determines which port control register is accessed by the “mov !rx,W”instruction as indicated in Table3-3. MODE register val-ues not listed in the table are reserved for future expan-sion and should not be used. Therefore, the MODE register should always contain a value from 08h to 0Fh. Upon reset, the MODE register is initialized to 0Fh, which enables access to the port direction registers.After a value is written to the MODE register, that setting remains in effect until it is changed by writing to the MODE register again. For example, you can write the value 0Eh to the MODE register just once, and then write to each of the three pullup configuration registers using the three “mov !rx,W” instructions.The following code example shows how to program the pullup control registers.First the MODE register is loaded with 0Eh to select access to the pullup control registers (PLP_A, PLP_B, and PLP_C). Then the MOV !rx,W instructions are used to specify which port pins are to be connected to the internal pullup resistors. Setting a bit to 1 disconnects the corresponding pullup resistor, and clearing a bit to 0 con-nects the corresponding pullup resistor.3.2.2 Port Configuration RegistersThe port configuration registers that you control with the MOV !rx,W instruction operate as described below. RA, RB, and RC Data Direction Registers (MODE=0Fh) Each register bit sets the data direction for one port pin. Set the bit to 1 to make the pin operate as a high-imped-ance input. Clear the bit to 0 to make the pin operate as an output.Table3-3. MODE Register and PortControl Register AccessMODE Reg.mov !RA,W mov !RB,W mov !RC,W 08h not used CMP_B not used09h not used WKPND_B not used0Ah not used WKED_B not used0Bh not used WKEN_B not used0Ch not used ST_B ST_C0Dh LVL_A LVL_B LVL_C0Eh PLP_A PLP_B PLP_C0Fh RA Direction RB Direction RC Directionmov M,#$0E;MODE=0Eh to access port pullup;registersmov W,#$03;W = 0000 0011mov!RA,W;disable pullups for A0 and A1mov W,#$FF;W = 1111 1111mov!RB,W;disable all pullups for B0-B7mov W,#$00;W = 0000 0000mov!RC,W;enable all pullups for C0-C7。

倍福模块配置方式倍福模块配置技术文档-:准备工作1;首先准备好倍福模块所需的配置文件，如下图：安装必读.txt 文本文档1 KB2 ；准备一台带有 Windows XP 或 Windows7 32位的计算机，并将IP 改为192.168.2.3二:安装配置1 ；首先在电脑的C 盘或其他盘创建一个文件夹，命名为IOPLC 0再将应用程序tcat_2110.2241复制到该文件夹 中并双击安装，如图1」。

安装过程中的语言选择英语即 可，如图1-20安装成功后重启电脑，如图1-3Beckhof^块配置 fin. exeDEFAULT. DFR DFR 文件 1 KBI0PI£ 20150505. BAK BAK 文件 0 KBI0PI£_20150505. pro TwiriCAT IEC1131 0 KBI0PI£_20150505. SDB Appfix 软件包 1 KBI0PI£ 20150505.tpy TPY 丈件 0 KB0IOPLC 20150505IpQPj KS2000配置完成圉. I a | 1824 X 768KS2000_v4. exeInstallScript S Q .・. Beckhofftcat_2110_2241. exeInstallScript S©.・・ Beckhoff AutomationKS2000安装序列号. txt文本文档TCRtime.系统文件160 KBBeckhoffl^ 块配置. exeI0PI£ 20150505.SYM SYM 丈件 1 KBbeckhofftl 块配置2. exeDEFAULT. DFRDFR 文件 1 KBIOFLJC 20150505. pro TwinCAT IEC1131 ... 0 KBI0PLJ3.20150505. tpyTFT 文件0 KBKS2000安装序列号. txt文本文档Del Regitem, reg ：注冊表烦1 KB1-11-2Px0o£ing ：・ zK-cnB/kho 田貝块配置 fiih. exeIOPIJ ： 20150505. BAK BAK 艾件 0 KBI0PL£_2015O505.SYNSIH 文件1 KBKS2000__v4. exe InztallScript Se... B^ckhc.££tcat_2110_2241.exe InstallScr ipt Se ・・・ B^ckhoff A-utomaitioPoFtirPoyt. zh"cnB^ckho 田貝块配置.ex eI0PL£_20150505.SDB Appfi«软件包 1 KBIOPLJ ： 20150505 ci 文评 — 0 KBKS20D 国己置完成劇. bmp1824 x 768TCRtime. sys 丟统文件160 KB4cBi_2l3O_22at .x. InsKLllScrtpt Se.fieckkobf A«<or>»iion1-32 ；将配置文件中的IOPLC文件复制到文件夹IOPLC 中并双击点开程序，如图2・1。

IMPERX IPX-11M5-L August 2, 2007 Basics about thecameraCamera DescriptionsEffective resolution: 4000 × 2672 ×Camera Link BASE interface (Dual tap).Progressive scan.Internal sync.External or internal exposure control.28 MHz pixel clock rate.Mode of operations as per Matrox Imaging (in parentheses as per camera manufacturer)Interface ModeContinuousPseudo-continuous (External Trigger) Asynchronous reset (External Trigger)Basics about theinterface modesCamera Interface BriefsMode 1: Continuous4000 × 2672 ×Camera Link BASE interface (Dual tap).Progressive scan.Matrox Odyssey eCL/XCL receiving LVAL, FVAL, PCLK and video fromcamera.DCF used: IPX11M5L_4000x2672_12bitCon.DCFMode 2: Pseudo-Continuous4000 × 2672 × 12-bit.Camera Link BASE interface (Dual tap).Progressive scan.Matrox Odyssey eCL/XCL sending TIMER1 OUT (CC1) signal to camerato initiate and control the exposure.Matrox Odyssey eCL/XCL receiving LVAL, FVAL, PCLK and video fromcamera.IMPERX IPX-11M5-L August 2, 2007 Basics about theCamera Interface Briefs (cont.)interface modesMode 2: Pseudo-ContinuousDCF used: IPX11M5L_4000x2672_12bitPcont.DCFMode 3: Asynchronous reset4000 × 2672 × 12-bit.Camera Link BASE interface (Dual tap).Progressive scan.Matrox Odyssey eCL/XCL receiving external trigger signal.Matrox Odyssey eCL/XCL sending TIMER1 OUT (CC1) signal to camerato initiate and control the exposure.Matrox Odyssey eCL/XCL receiving LVAL, FVAL, PCLK and video fromcamera.DCF used: IPX11M5L_4000x2672_12bitAsync.DCFSpecifics aboutCamera Interface Detailsthe interface modesMode 1: ContinuousFrame Rate: Matrox Odyssey eCL/XCL receives the continuous videofrom the camera at 4.5 frames per second.Exposure time: Exposure time is set using the Imperx Lynx CameraConfiguration Utility. Refer to the camera manual for commandsdescription and usage.IMPERX IPX-11M5-L August 2, 2007Specifics aboutthe interface modes Camera Interface Details (cont.)Mode 1: ContinuousCamera Configuration: The camera mode is set as follows using theImperx Lynx Camera Configuration Utility. Refer to the camera manual fordetails about the following controls and their usage. Control Setting Depth 12bits Taps Dual Trigger OFFMode 2: Pseudo-Continuous Frame rate : The frame rate is determined by the frequency of the TIMER1 OUT (CC1) signal. Exposure time: The width (rising edge to falling edge) of the TIMER1 OUT (CC1) signal is the exposure time, which can be modified in the DCF using Matrox Intellicam, ONL imCamControl() or imDigControl() function, or with the MIL MdigControl() function. Consult the respective manual for more information. Camera Configuration: The camera mode is set as follows using the Imperx Lynx Camera Configuration Utility. Refer to the camera manual for details about the following controls and their usage. Mode 3: Asynchronous Reset Frame rate : The frame rate is determined by the frequency of the external trigger signal. Exposure time: Same as in Mode 2: Pseudo-continuous. Bayer Color Filter: Refer to Mode 1: Continuous . Camera Configuration: Same as in Mode 2: Pseudo-continuous. Control Setting Depth 12bits Taps Dual Trigger CC Mode Standard CC Exposure Control ComputerIMPERX IPX-11M5-L August 2, 2007 Cabling details for theCabling Requirementsinterface modesModes 1 and 2: Continuous, Pseudo-continuous▪Cable and Connection: Standard Camera Link cable.Mode 3: Asynchronous reset▪Cable and Connection: Standard Camera Link.▪External trigger: External trigger should be connected to the OPTOTRIG input of the 9-pin connector (pins 7 and 2) on the Expanded I/Oadapter bracket.EXPANDED I/O BRACKET(9-pin connector) External Trigger SourceOPTOTRIG + 07 ←LINE SIGNAL --OPTOTRIG - 02 ←LINE GROUND --The DCFs mentioned in this application note are also attached (embedded) to this PDF file – use the Adobe Reader’s View File Attachment to access the DCF files. The information furnished by Matrox Electronics System, Ltd. is believed to be accurate and reliable. Please verify all interface connections with camera documentation or manual. Contact your local sales representative or Matrox Sales office or Matrox Imaging Applications at 514-822-6061 for assistance. © Matrox Electronic Systems Ltd, 2007-2011.Matrox Electronic Systems Ltd.1055 St. Regis Blvd.Dorval, Quebec H9P 2T4CanadaTel: (514) 685-2630Fax: (514) 822-6273。

VIAVI SolutionsData SheetVIAVICross Connect Optical Switch (mOSX-C1)Optical Matrix Switch for MAP SeriesThe MAP Series mOSX-C1 optical matrix switch is part of the broader VIAVI test automation switch portfolio. More than just a switch, the mOSX-C1 is a low loss, flexible test path manager. Connecting multiple test paths across the switch fabric enables parallel test processes and dramatically reduce the cost of test.Benefitsy Increase capital utilization factors, enabling on demand, parallel test architectures y Replace multi-layer switching architectures, reduces loss and reconfiguration times y Minimize switching varianty Drives deeper integration and reduces test set sizeFeaturesy Non-blocking, bidirectional matrix switch y Wide wavelength range, 1250 to 1675 nm y 1.0 dB typical insertion loss y 25ms switching speedy Flexible SCPI remote interface or MAP Series Graphical User Interface (GUI) y Connections between ports can be disabled or re-enabledApplicationsy T est system automation for multi-port components, modules and line cards y Manage complex manufacturing test sequencing y Can be paired with MAP-Series mOSW modules to create larger more complex switching systemsSafety Informationy When installed in a MAP chassis, MAP optical switches comply with CE, CSA/UL/ IEC61010-1, and LXI Class C requirementsthe switch on demand. Ports can be allocated as needed (input or output) and are not trapped with a connection that cannot be made. All connections may be pre-configured – without light present – and are in a blocking state prior to be being activated. Connections can be made and broken without impact on any other connection.The mOSX switch adds tremendous test sequence automation flexibility and reduces switch variant requirements across the manufacturing line. The same switch can be used to fill many roles. One switch type can be used in applications ranging from complex manufacturing test sequencing a single DUT, test systems having many independent DUT’s or automation of multi-port components.VIAVI Solutions is the world leader in 1xN optical switches for test and automation applications. For over 30 years VIAVI switches have been a key enabler of test automation strategies to reduce the cost of test. For the first time, cross connect optical switches are being offered as part of the MAP portfolio.The switch fabric supports a unique any-port to any-port connection fabric and enables both symmetric MxM (for example 8x8), and asymmetric topologies (4x12 for example). Thisflexibility enables users to reconfigureFunctional DescriptionThe mOSX switch is a low insertion loss (< 1.0 dB typical and <1.5dB max), fast switching (< 25ms to full specification) and non-blocking matrix switch. The switching engine is based on extremely compact piezo electric actuators that are used to align the signal path using expanded beam optics. Diffraction limited optics connect fiber pairs and ensures industry leading optical performance. A capacitive sensor matrix measures the position of the collimating lens to nanometer accuracy and ensures long term stability and repeatability. Connections are maintained even if light is not present. The simple optical path enables very low PDL and minimizes return loss.Reflective optics “fold” the switch engine, allowing each fiber to connect to all other fibers. Thus, providing a flexible switch configuration with the same hardware dynamically set up by software. A 16-port switch can be a dual 4x4, 8x8, 7x9, 6x10…or 1x15Figure 1. MxN switch topology have an inherent directionality. Ports on the M-side can connect to any N-side port, however M-sideports cannot connect to each other. In an any-to-any or “Common Connection” switch a port can connect to any other portTradition MXN Switch Switches have an In/Out GeographyM mOSX MXCC SwitchAny to AnyMN When the mOSX is paired with the VIAVI mOSW, large complex switch solutions can be developed,thus minimizing switching costs.An intuitive graphic user interface (GUI) is optimized for use in either a laboratory or a manufacturing environment. All ports can be given a logical name to help manage complex systems. Efficient transition between summary and detailed views (figure 2, 3 and 4) allow users to operate at a system level or access the full power of a module.Figure 3. mOSX-C1 MAP-300 GUI provides simple visual switch statusFigure 4. mOSX-C1 MAP-300 summary view with port labels.Active paths shown with check boxFigure 2. mOSX-C1 MAP-300 add channel dialogue example.On the left, the switch is set to 4x20 and on the right in full common connection mode.Making a connection is as simple as identifying the two ports ID’s to be connected. As a software option to aid in connection management, it is possible to assign the switch a specific MxN topology (for example 4x12). In this case, connections will only be allowed if they follow the programmed structure. In full any-to-any mode, all connections are possible.Options and ConfigurationsThe mOSX-C1 is offered in a 16-port, 32-port and 48-port variants. The switches are offered in the following configurations.Chassis and Modular FamilyThe VIAVI Multiple Application Platform (MAP) is a modular, rack mountable or benchtop, optical test and measurement platform with chassis’ that can host 2, 3 or 8 application modules. The LightDirect family of modules are characterized by their simple control and single function nature. Individually or together they form the foundation of a diverse array of optical test applications. The web enabled multiuser interface is simple and intuitive. LXI compliant with a full suite of SCPI based automation drivers and PC based management tools, the VIAVI MAP is optimized for both the lab to manufacturing environments.The mOSX is part of the LightDirect switching modular family. Alongside the many other modules, such as light sources, polarization scramblers, power meters, and spectrum analyzers, the MAP series is the ideal, modular platform for photonic system and module testing.The mOSX is compatible with all current MAP-300 and MAP-200 chassis.Specifications2Active Connection Maximum≤ 1.5 dB≤ 2.5 dBOpen Port> 55 dBInactive Connection> 55 dBReturn Loss (RL)³> 50 dBPolarization Dependent Loss (PDL)⁴< 0.1 dBRepeatability⁵(maximum)± 0.05 dB± 0.1 dBIL stability⁶ ± 0.05 dB± 0.1 dB Wavelength Dependent Loss (WDL)⁷≤ 0.3 dBT emperature Dependent Loss (TDL)⁸≤ 0.2 dB≤ 0.5 dB Crosstalk (maximum)- 55 dB-50 dBMax input power (optical)500 mW (27 dBm)Switching time≤ 25 msFiber Type⁹Single ModeDark Fiber Switching Y esBi-Direction Optics Y esLifetime> 109 CyclesWarming up Time 60 minOperation temperature 10°C to 40°COperation humidity< 85% RH non-condensingStorage temperature-40°C to +70°C, <40% RH non-condensing Dimensions (W x H x D) Single slot: 4.1 x 13.3 x 37.0 cm (1.6 x 5.22 x 14.58 in)10Dual slot: 8.1 x 13.26 x 37.03 cm (3.2 x 5.2 x 5.7 in) Weight Single slot: 1.75 kg (3.75 lb)Dual slot: 3.1 kg (6.8 lb)1. Unless otherwise stated, all tests done with a depolarized source at 20°C in a temperature-controlled chamber after thermal equalization2. Including one pair of connectors; tested at 1550 nm3. Tested with APC connectors at 1550 nm4. For wavelength range of 1530 nm – 1675 nm. Tested at 1550 nm.5. Measured between two consecutive readings over 100 cycles6. Any channel drift relative to reference channel at constant temperature over 15 mins period7. For wavelength range of 1530 nm – 167 nm8. Over the temperature range 15 to 35°C at 1550 nm after thermal stabilization9. For IEC 60793-2-50 Type B1.3/ ISO 11801 OS2 compliant fiber, i.e. Corning SMF-28e10. MOSX-C1116XCCB0-M100-MLC and MOSX-C1116XCCB0-M100-MLU variants only.Ordering InformationFor more information on this or other products and their availability , please contact your local VIAVI account manager or VIAVI directly at 1-844-GO-VIAVI (1-844-468-4284) or to reach the VIAVI office nearest you, visit/contacts.MOSX-C1116XCCB0-M100-MFA 16 port common connection SMF optical matrix switch FC/APC bulkheadDual SlotMOSX-C1116XCCB0-M100-MFP 16 port common connection SMF optical matrix switch FC/PC bulkheadMOSX-C1116XCCB0-M100-MLC 16 port common connection SMF optical matrix switch LC/PC bulkheadSingle SlotMOSX-C1116XCCB0-M100-MLU 16 port common connection SMF optical matrix switch LC/APC bulkheadMOSX-C1116XCCB0-M100-MSC 16 port common connection SMF optical matrix switch SC/PC bulkheadMOSX-C1116XCCB0-M100-MSU16 port common connection SMF optical matrix switch SC/APC bulkhead32-Port Common Connection Optical Matrix Switch MOSX-C1132XCCB0-M100-MLC 32 port common connection SMF optical matrix switch LC/PC bulkheadDual SlotMOSX-C1132XCCB0-M100-MLU32 port common connection SMF optical matrix switch LC/APC bulkhead48-Port Common Connection Optical Matrix Switch MOSX-C1148XCCB0-M100-MLC 48 port common connection SMF optical matrix switch LC/PC bulkheadDual SlotMOSX-C1148XCCB0-M100-MLU48 port common connection SMF optical matrix switch LC/APC bulkhead© 2022 VIAVI Solutions Inc.Product specifications and descriptions in this document are subject to change without notice.Patented as described at /patentsmosx-ca-ds-lab-nse-ae 30187499 905 1122Contact Us+1 844 GO VIAVI (+1 844 468 4284)To reach the VIAVI office nearest you, visit /contactVIAVI SolutionsAccessoriesA wider range of inspection tools are available at VIAVI. More information about the products and accessories can be accessed through our website at . For further assistant please contact your local VIAVI account manager or VIAVI directly at 1-844-GO-VIAVI (1-844-468-4284) or to reach the VIAVI office nearest you, visit /contacts.。