MB7900 Datasheet
170M1560D,170M1562D,170M1563D,170M1565D,170M1566D,170M1564D,170M1569D, 规格书,Datasheet 资料
Standards/Approvals:CE, designed and tested to IEC 60269: part4. UL recognised (Survival Only), CSADescription:Square body DIN 43620 blade style, dualindication High Speed fusesPackaging:Size 000 are packed in 10’sSize 00 are packed in 6’sTechnical Data:Rated Voltage:690 VacAmps:10A to 315ARated Breaking Capacity: 200kA RMS SymRoHS Compliant: YesCatalogue Symbol:170M1558D to 170M1572DClass of Operation:gR (10 to 63A), aR (80 to 315A)Dimensional Data:DIN 000 Type T1mm = 0.0394” / 1” = 25.4mm DIN 00 Type T1mm = 0.0394” / 1” = 25.4mmCatalogue Numbers:Standard Approvals:CE, IEC 60269: part 4, UL recognised (Survival Only), CSATechnical Data:10, 16, 20, 25, 25, 32, 40, 50, 63, 80, 100, 125, 160, 200, 250, 315* Amps*315A is only available in size DIN00The rated current of this fuse range has been given with copper conductors that have a high current density of 1.3A/mm 2(IEC 60269-4). For conductor cross section according to IEC 60269-1, the fuses with a rated current higher than 125A must be derated. Please contact Cooper Bussmann for application assistance.Total Clearing I 2TThe total clearing I 2t at rated voltage and at power factor of 15% are given in the electrical characteristics. For other voltages, the clearing I 2t is found by multiplying by correction factor, K, given as a function of applied working voltage Eg (rms)Power LossesWatts loss at rated current is given in the electrical characteristics. The curve allows the calculation of the power losses at load currents lower than the rated current. The correction factor, Kp, is given as a function of the RMS load current, lb, in % of the ratedcurrent.This curve gives the peak arc voltage, UL,which may appear accross the fuse during its operation as a function of the applied working voltage, Egrection factor, K, given as afunction of applied working voltage Eg (rms)at a power factor of 15%Time Current CurvesPeak Let-Through。
MT7900 Datasheet
2
V
Current sense stage
Current sense pull-in Vcs
threshold voltage
250
mV
Tblank
Current sense blank time
430
ns
Toff
Off time
COFF Pin floating
200
ns
Ioff
Off time current
20
uA
Driver stage
trise
Gate output rise time
Cgate=500pF
42
ns
tfall
Gate output fall time
Cgate=500pF
30
ns
Over Temperature Protection
OTPBiblioteka Thermal protection threshold
MT7900 Rev. 1.3
Copyright © 2010 Maxic Technology Corporation
Page 1
ABSOLUTE MAXIMUM RATINGS
VIN / VDD / OUT Pin All other pins ESD (HBM) Storage Temperature
THERMAL RESISTANCE
Junction to ambient (RθJA)
PIN CONFIGURATIONS
MT7900
High Brightness LED Driver
-0.3V to +16V -0.3V to +6V ±4000V -55°C to 150°C
BL0906 六相交流电能计量芯片数据手册说明书
BL0906六相交流电能计量芯片数据手册V1.0目录版本信息 (2)目录 (2)1、产品简述 (5)2、基本特征 (6)2.1主要特点 (6)2.2系统框图 (7)2.3管脚排列(LQFP32) (7)2.4性能指标 (8)2.4.1 电参数性能指标 (8)2.4.2 极限范围 (9)3、工作原理 (11)3.1电流电压波形产生原理 (11)3.1.1 相位补偿 (11)3.1.2 通道偏置校正 (12)3.1.3 通道增益校正 (12)3.1.4 电流电压波形输出 (13)3.2有功功率计算原理 (13)3.2.1 有功功率输出 (14)3.2.2 有功功率校准 (14)3.2.3 有功功率的防潜动 (15)3.2.4 有功功率小信号补偿 (15)3.3有功能量计量原理 (16)3.3.1 有功能量输出 (16)3.3.2 有功能量输出选择 (17)3.3.3 有功能量输出比例 (18)3.4电流电压有效值计算原理 (18)3.4.1 有效值输出 (18)3.4.2 电流电压有效值校准 (19)3.4.3 有效值的防潜动 (19)3.5快速漏电/过流检测原理 (20)3.5.1 快速有效值输出 (20)3.5.2 快速有效值累计时间和阈值 (20)3.5.3 快速有效值读前保存 (21)3.5.4 过流指示 (21)3.5.5 继电器控制 (22)3.6无功计算 (22)3.6.1 无功计算输入选择 (23)3.6.2 相位补偿 (23)3.6.4 无功功率校准 (23)3.6.5 无功功率的防潜动 (24)3.6.6 无功功率小信号补偿 (24)3.6.7 无功能量输出 (25)3.7视在和功率因子计算 (25)3.7.1 视在功率和能量输出 (25)3.7.2 视在功率校准 (25)3.7.3 功率因子 (26)3.8温度计量 (26)3.9电参数计量 (26)3.9.1 线周期计量 (26)3.9.2 线频率计量 (27)3.9.3 相角计算 (27)3.9.4 功率符号位 (27)3.10故障检测 (28)3.10.1 过零检测 (28)3.10.2 峰值超限 (28)3.10.3 线电压跌落 (29)3.10.4 过零超时 (30)3.10.5 电源供电指示 (31)3.10.6 ADC关断 (31)4、内部寄存器 (32)4.1电参量寄存器 (32)4.2校表寄存器(外部写) (34)4.3OTP寄存器(可写) (37)4.4模式寄存器 (38)4.4.1 模式寄存器(MODE) (38)4.5中断状态寄存器(STATUS1/STATUS2) (39)4.5.1 STATUS1寄存器 (39)4.5.2 STATUS3寄存器 (40)4.6校表寄存器详细说明 (40)4.6.1 通道PGA增益调整寄存器 (40)4.6.2 相位校正寄存器 (41)4.6.3 有效值增益调整寄存器 (41)4.6.4 有效值偏置校正寄存器 (42)4.6.5 有功小信号补偿寄存器 (42)4.6.6 无功小信号补偿寄存器 (43)4.6.7 防潜动阈值寄存器 (43)4.6.8 快速有效值相关设置寄存器 (44)4.6.9 过流报警及控制 (45)4.6.10 ADC使能控制 (46)4.6.11 能量读后清零设置寄存器 (46)4.6.13 软复位寄存器 (47)4.6.14 通道增益调整寄存器 (47)4.6.15 通道偏置调整寄存器 (48)4.6.16 有功功率增益调整寄存器 (48)4.6.17 有功功率偏置调整寄存器 (49)4.6.18 无功/视在功率增益调整寄存器 (49)4.6.19 无功/视在功率偏置调整寄存器 (50)4.6.20 CF缩放比例寄存器 (50)4.7电参数寄存器详细说明 (51)4.7.1 波形寄存器 (51)4.7.2 有效值寄存器 (51)4.7.3 快速有效值寄存器 (51)4.7.4 有功功率寄存器 (52)4.7.5 无功功率寄存器 (52)4.7.6 视在功率寄存器 (52)4.7.7 电能脉冲计数寄存器 (53)4.7.8 波形夹角寄存器 (53)4.7.9 快速有效值保持寄存器 (54)4.7.10 功率因数寄存器 (54)4.7.11 线电压频率寄存器 (54)5、通讯接口 (55)5.1SPI (55)5.1.1 概述 (55)5.1.2 工作模式 (55)5.1.3 帧结构 (55)5.1.4 读出操作时序 (56)5.1.5 写入操作时序 (57)5.1.6 SPI接口的容错机制 (57)5.2UART (58)5.2.1 概述 (58)5.2.2 每个字节格式 (58)5.2.3 读取时序 (58)5.2.4 写入时序 (59)5.2.5 UART接口的保护机制 (59)6、典型应用图 (60)7、封装信息 (61)1、产品简述BL0906是一颗内置时钟多路免校准电能计量芯片,最多可以实现六相交流电能计量。
NTLTD7900ZR2G;中文规格书,Datasheet资料
Characteristic OFF CHARACTERISTICS Drain--to--Source Breakdown Voltage (Note 2) (VGS = 0 Vdc, ID = 250 mAdc) Zero Gate Voltage Drain Current (VDS = 16 Vdc, VGS = 0 Vdc) (VDS = 16 Vdc, VGS = 0 Vdc, TJ = 85°C) Gate--Body Leakage Current (VGS = 4.5 Vdc, VDS = 0 Vdc) (VGS = 12 Vdc, VDS = 0 Vdc) ON CHARACTERISTICS (Note 2) Gate Threshold Voltage (Note 2) (VDS = VGS, ID = 250 mAdc) Static Drain--to--Source On--Resistance (Note 2) (VGS = 4.5 Vdc, ID = 6.5 Adc) (VGS = 2.5 Vdc, ID = 5.8 Adc) DYNAMIC CHARACTERISTICS Input Capacitance Output Capacitance Transfer Capacitance SWITCHING CHARACTERISTICS (Note 3) Turn--On Delay Time Rise Time Turn--Off Delay Time Fall Time Gate Charge (VGS = 4.5 Vdc, ID = 6.5 Adc, VDS = 10 Vdc) (Note 2) (VGS = 4.5 Vdc, VDD = 10 Vdc, ID = 1.0 Adc, RG = 9.1 Ω) (Note 2) td(on) tr td(off) tf QT Q1 Q2 VSD -------0.55 1.17 1.87 4.8 12 0.7 3.7 1.0 2.0 3.0 7.0 18 --nC ms nC ms (VDS = 16 Vdc, VGS = 0 V, f = 1.0 MHz) Ciss Coss Crss ---7.4 237 4.1 15 400 10 pF pF VGS(th) RDS(on) 0.4 --0.67 21 27 1.0 26 31 Vdc mΩ V(BR)DSS IDSS 20 ----24 -----1.0 20 1.0 500 Vdc mAdc Symbol Min Typ Max Unit
华为7900系列家庭工作者指南说明书
Your guide to setting up your One Net Business Homeworker IP PhoneBefore you start, you will need•Your One Net Business Homeworker IP Phone and power supply.• A fixed broadband modem/router with a spare Ethernet port.• A nearby spare mains power socket.•Sufficient bandwidth from your broadband connection (see below)Things to noteInstructions in this document cover how to connect the IP Phone to your broadband router. If you wish to use a LAN set up within the house or remote office, you do so at your own risk. For troubleshooting purposes, we will ask you to plug your IP phone directly into the broadband router. You should only install your IP phone in normal household temperatures, not in humid conditions and away from water.Your IP phone requires a UK mains power supply and during power outages, the phone will not be available for emergency callsYour IP phone can be in the UK, only.Other devices that use a lot of bandwidth (such as streaming audio and video or gaming) will share the broadband connection with your phone. If you find that your calls are of poor quality or are dropping unexpectedly, try reducing the number of other applications that are using your broadband. Your IP Phone must first connect to your main office One Net Business service initially to receive its profile and settings. Please be aware that some changes or fault fixes will require you repeat this step.It is good practice to connect your handset to your main office One Net Business service every six months to receive any recent updates.Bandwidth requirementsYour broadband speed needs to be at least 1Mbit/s to support this phone.If you need more than one IP phone for your home site, we would recommend another 500Kbps per phone. Home sites with more than four IP phones require dedicated access and therefore only four One Net IP phones are recommend. Please contact your Company Administrator and confirm that your home site is suitable for Homeworker services.Our IP Phone service works with the majority of routers and broadband providers. However, if you do have any problems or want to check before installing a new broadband service, just get in touch with your ISP via their contact pages to confirm that their service supports SIP for IP Voice.It is unusual, but some ISPs may restrict SIP traffic. If your IP Phone fails to connect and you have contacted your Company Administrator, please contact your ISP to ensure that they allow SIP traffic. If you are considering installing a new broadband service for the One Net Business service, check with your provider that they allow SIP traffic.If you are operating as a Homeworker on a “home” network, the router/gateway needs to be non-SIP aware, e.g. disable ALG (Application Layer Gateway), and/or any other VOIP settings on the routerIf you are operating as a Homeworker on an “enterprise” network, the router/gateway needs to be non-SIP aware, e.g. disable ALG (Application Layer Gateway), and/or any other VOIP settings on the router. The firewall needs to be SIP aware, e.g. the 5060 and RTP ports need to be open. Any other QOS needs SIP and RTP as a priority.To enable the service on your router, UDP port 5060 needs to be open to the specified IP phone. Please contact your ISP and/or equipment vendor for specific instructions on how to check and amend the router/firewallThe IP Phone will not work with satellite broadband, as there is high latency on this type of connection, which prevents the device from talking to the network. WiMax, bonded lines and secure firewalls may also not work with a One Net Business IP Phone.Port ranges needed opening:5060 – SIP1024- 65535- UDPWhat can your IP phone do?This will allow you to connect and receive calls to and from the One Net Business service that your company is receiving from Vodafone.How to set up your phonePlug the included Ethernet cable from the port on the bottom of the device (identified in Picture 1 below and marked SW on the phone) into a spare port on your broadband router.Plug the black lead from the power pack into the power socket on the IP phone (identified in Picture 2 below and marked AC on the phone) and into the mains power socket.The phone will now start its initialisation process. This may take several minutes.The background image and idle text will change to show ‘Vodafone’The user’s username and extension number will be displayed at the top right of the screen.The phone should now be able to make and receive calls. If not, please check the ‘troubleshooting’ section below.Additional information on Cisco HandsetsFurther information for the IP Phones can be found here:https:///latest/uk/en/content/topics/cf/home/one-net-business-homeIn-Life guidelinesPlease note that Vodafone’s support coverage for ‘homeworker’ services only encompasses the IP Phone device and the core One Net Business service.Shared connectionsIt is not possible for Vodafone to control your home or business broadband connection and protect the quality of your voice calls over those connections.Vodafone is not responsible for how your ISP manages or control your broadband traffic. It is recommended that you choose a broadband service with an ‘unlimited’ data cap to avoid calls bei ng blocked by the ISP.You should be aware of the other connected devices you have using that broadband connection, as they could potentially affect the IP Phone service.Online gaming, other VoIP services like Vonage will use a medium amount of bandwidth.If you find that your calls are of poor quality or are dropping unexpectedly, please check if you are using any high bandwidth applications on other connected devices, or if others who are sharing your connection are doing so.TroubleshootingContact your ISP service if your broadband service is not working. Broadband services will occasionally have outages and during these outages, the IP Phone will not work.Contact your Company Administrator and / or ISP service if your IP Phone has never registered to the One Net service (remember that your phone MUST be connected to the One Net corporate network first.Contact Vodafone if the IP Phone stops working but your broadband service is behaving normally (e.g. email and web surfing is still working).Vodafone will not be able to talk to your broadband provider.Below are some suggestions on how to recognise and fix common problems.Huawei 7900Picture 1 – Connecting your Ethernet Cable。
KC7900说明书(图形界面)NEW
KC7900系列嵌入式数字硬盘录像机操作手册Copyright 2005使用本产品之前,敬请您仔细阅读使用手册。
嵌入式数字硬盘录像机使用说明书目录第一章 KC7900系列嵌入式数字硬盘录像机简介 (1)1.1 KC7900系列嵌入式数字硬盘录像机的组成和功能 (1)1.1.1 KC7900系列嵌入式数字硬盘录像机组成 (1)1.1.2 KC7900系列嵌入式数字硬盘录像机功能 (1)第二章 KC7900系列嵌入式数字硬盘录像机的安装 (4)2.1 硬件安装 (4)2.1.1 安装步骤 (4)2.1.2 注意事项 (4)2.2 设备面板说明 (4)2.2.1 前面板 (4)2.2.2 后面板 (6)2.3 物理接口插座引脚定义 (7)2.3.1 RS232标准串口RJ-45插座引脚定义 (7)2.3.2 标准RS485串口RJ-45插座引脚定义 (9)2.3.3 10M/100M自适应以太网口的双绞线制作 (9)第三章 KC7900系列嵌入式数字硬盘录像机的操作 (10)3.1 硬盘录像机启动过程说明 (10)3.2 KC7900系列嵌入式数字硬盘录像机操作说明 (10)3.2.1 用户说明 (10)3.2.2 预览界面操作说明: (10)3.2.3 菜单说明 (11)3.2.4 回放 (12)3.2.5 手动录像 (15)3.2.6 云台控制 (16)3.2.7 本地显示 (17)3.2.8 图像设置 (19)3.2.9 录像设置 (23)3.2.10 网络设置 (26)3.2.11 报警量 (27)3.2.12 异常处理 (29)3.2.13 解码器 (29)3.2.14 串口设置 (30)3.2.15 预览设置 (32)3.2.16 密码 (33)3.2.16 日期时间 (33)3.2.18 系统 (34)第四章KC7900系列嵌入式数字硬盘录像机的软件升级 (38)第一章KC7900系列嵌入式数字硬盘录像机简介1.1 KC7900系列嵌入式数字硬盘录像机的组成和功能非常感谢您购买我公司的产品。
MIC-7900快速入门手册说明书
安裝系統之前,使用者需確認包裝中含有下面所列各項:1. MIC-7900准系統x12. MIC-7900快速入門手冊x1 P/N:20017900003. MIC-7900快速入門手冊P/N:2001790010 (繁中版)x14. MIC-7900驅動CD光碟x1 P/N:20617900005. 4針Phoenix接頭 P/N:16520032346. 系統壁掛支架x2 P/N:1960070543N0017. SATA電纜x1 P/N:17000130958. SATA電源線x1P/N:1700024372-019. 2 x DP9埠電纜 x1P/N:1700019968如果其中任何一項缺失或損壞,請立即與經銷商或銷售代表聯繫。
註1: 關於MIC-7900的詳細資訊,請參考附帶的CD-ROM 光碟(PDF格式)。
註2:閱讀PDF檔需要使用Acrobat Reader。
使用者可從 以下路徑下載Acrobat Reader:get. /reader (Acrobat is a trademark of Adobe)警告使用者:這是甲類資訊產品,在居住的環境中使用時,可能會造成頻干擾,在這種情況下,使用者會被要求採取某些適當對策。
處理器系統• Intel Xeon broadwell-DE處理器 - D-1559 1.5 Ghz - D-1539 1.6 GhzMIC-7900搭载Intel Xeon 处理器SoC 的紧凑型无风扇电脑快速入门手册記憶體• 支援雙通道DDR4 SO-DIMM-2133 MHz,每個插槽可支援4 GB(支援ECC功能);最大容量可達32 GB;本產品Memory 為選購配件,需由使用者自行購置選擇安裝,以組成系統電腦,方可使用。
顯示• Aspeed 1400支援256MB VGA記憶體,可提供基本2D VGA功能序列埠• 2 x RS-232/422/485,可通過BIOS選擇乙太網• 介面:10/100/1000 Mbps • 控制器:LAN1:Intel i210IT,支援網路喚醒 LAN2:Intel i210IT,支援網路喚醒 LAN3:Intel i210IT • LAN4:Intel i210IT存儲• 內置2.5”HDD托架:1註: 本產品 SSD, HDD 為選購配件,需由使用者自行購置選擇安裝,以組成系統電腦,方可使用。
微专米 G.Fast 双频通道线驱动器数据表说明书
Le87282G.FastDual Channel Line DriverData Sheet FEATURES•Supports two independent channels ofhigh frequency G.Fast transmission•Supports VDSL2 and ADSL2+ operation•Very low power dissipation–Class AB operation• 5 programmable states–Independent channel control•No external gain resistors required•Operates from a wide range of supply voltages•Small footprint package–28-pin (4 mm x 5 mm) QFN•RoHS compliantAPPLICATIONS•G.Fast Line Driver•VDSL2 Line Driver•ADSL2+ CPE Line DriverDESCRIPTIONThe Le87282 is a dual channel differential amplifierdesigned to drive G.Fast transmission signals as well ashigher power VDSL2 and ADSL2+ signals, all with verylow power dissipation. The Le87282 contains two pairsof wideband amplifiers designed with Microsemi’s HV15Bipolar SOI process for low power consumption.The line driver gain is fixed internally. The amplifiers arepowered from a single supply.The device can be programmed to one-of-three presetBias levels or to impedance controlled Disable orStandby states. Each channel can be controlledindependently. The control pins respond to input levelsthat can be generated with a standard tri-state GPIO.The Le87282 is available in a 28-pin (4 mm x 5 mm)QFN package with exposed pad for enhanced thermalconductivity.ORDERING INFORMATIONLe87282MQC 28-pin QFN Green Package TrayLe87282MQCT 28-pin QFN Green Package Tape and ReelThe green package meets RoHS2 Directive2011/65/EU of theEuropean Council to minimize the environmental impact of electricalequipment.Version 6 January 2019Document Code PD-000286414TABLE OF CONTENTSFeatures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Ordering Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 Connection Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Thermal Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Package Assembly. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Operating Ranges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 Device Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 State Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Line Driver Protection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 Physical Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 28-pin QFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9CONNECTION DIAGRAMNote:1.Pin 1 is marked for orientation.2.The Le87282 device incorporates an exposed die pad on the underside of its package. The pad acts as a heat sink and must be connectedto a copper plane through thermal vias, for proper heat dissipation. It is electrically isolated and maybe connected to GND.PIN DESCRIPTIONSPin #Pin Name Type Description1IREF Input Device internal reference current. Connect a resistor (R REF ) to GND.2VINA Input Non-inverting input of amplifier A 3VINB Input Non-inverting input of amplifier B 4GND Ground Reference ground5GND 6VINC Input Non-inverting input of amplifier C 7VIND InputNon-inverting input of amplifier D 8NC No internal connection 9S2Input Channel 2 state control 10VOUTD Output Amplifier D output11EN2Input Enable Channel 2 transmission 12VOUTC Output Amplifier C output13NC No internal connection14NC 15NC 16NC 17GND GroundReference ground 18VS PowerPower Supply19VS 20VS 21GND GroundReference ground22NC No internal connection23NC 24NC 25VOUTB Output Amplifier B output26EN1Input Enable Channel 1 transmission 27VOUTA Output Amplifier A output 28S1InputChannel 1 state controlExposed padElectrically isolated thermal conduction pad, can be groundedABSOLUTE MAXIMUM RATINGSStresses above the values listed under Absolute Maximum Ratings can cause permanent device failure.Functionality at or above these limits is not implied. Exposure to absolute maximum ratings for extended periods can affect device reliability .Notes:1.Continuous operation above 145°C junction temperature may degrade device reliability.2.See Thermal Resistance .3.No air flow.Thermal ResistanceThe thermal performance of a thermally enhanced package is assured through optimized printed circuit board layout.Specified performance requires that the exposed thermal pad be soldered to an equally sized exposed copper surface, which, in turn, conducts heat through multiple vias to larger internal copper planes.Package AssemblyThe green package devices are assembled with enhanced, environmental compatible lead-free, halogen-free, and antimony-free materials. The leads possess a matte-tin plating which is compatible with conventional board assembly processes or newer lead-free board assembly processes.Refer to IPC/JEDEC J-Std-020 Table 4 for recommended peak soldering temperature and Table 5-2 for the recommended solder reflow temperature profile.OPERATING RANGESMicrosemi guarantees the performance of this device over the industrial (-40°C to 85°C) temperature range by conducting electrical characterization over each range and by conducting a production test with single insertion coupled with periodic sampling. These characterization and test procedures comply with the Telcordia GR-357-CORE Generic Requirements for Assuring the Reliability of Components Used in Telecommunications Equipment.Storage Temperature-65 ≤ T A ≤ +150°C Operating Junction Temperature (Note 1)-40 ≤ T j ≤ +150°C VS with respect to GND-0.3 V to +16 V Control inputs with respect to GND -0.3 V to 4 V Continuous Driver Output Current100 mA Maximum device power dissipation, continuous (2) - T A = 85°C, P D 1.7W Junction to ambient thermal resistance (2,3), θJA 36.0°C/W Junction to board thermal resistance (2), θJB18.3°C/W Junction to case bottom (exposed pad) thermal resistance, θJC (BOTTOM)8.9°C/W Junction-to-top characterization parameter (2), ψJT 1.2°C/WESD Immunity (Human Body Model)JESD22 Class 2 compliant ESD Immunity (Charge Device Model)JESD22 Class IV compliantAmbient temperature T A-40°C to +85°C Power SupplyVS with respect to GND:Typical usage+8V to +15V,+12V ± 5%DEVICE SPECIFICATIONSTypical Conditions: As shown in the basic test circuit (Figure 1) with VS = +12 V, R REF = 75 k Ω, and T A = 25°C.Min/Max Parameters: T A = -40 to +85°C.Figure 1.Basic Test Circuit - Channel 1 ShownTable 1.Electrical SpecificationsSymbolParameter Description ConditionMinTyp Max Unit NotesSupply Characteristics P VS Supply Power (per channel)Transmission, P LINE = 4 dBm 470600mW Receive period, Disable state 175250mW I VSSupply Current (per channel)Standby State11.5mAControl Input (S1, S2, EN1, EN2 ) Specifications V IH Input High Voltage 2.03.3 3.6V V IM Input Middle Voltage 1.5V V ILInput Low Voltage -0.300.8V Enable Time 500ns Disable TimeDisable state500nsAmplifier CharacteristicsDifferential Gain VOUT/VIN 18.318.819.1dB Gain Flatness2 − 106 MHz-1.51dB 1V O Output Voltage 10V I O Output Current 150mA 1Z I Input Impedance Differential 131518k ΩZ O Output Impedance Disable state 60ΩAmplifier Dynamic CharacteristicsNoise Input Referred Noise 2 - 106 MHz915nV/1TSDThermal Shutdown Temperature170°CNotes: 1. Not tested in production. Guaranteed by characterization and design.HzSTATE CONTROLS1, EN1 and S2, EN2 pins are used as combinatorial logic inputs to control the line driver operating states. Table 2 and Table 3 show the programmable states for each channel.S1, EN1 and S2, EN2 are tri-state inputs that accept three operating levels. These pins have internal resistors tied to +1.5 V which force a middle logic input level when the control to these pins is tri-stated.Table 2.Channel 1 Control MatrixS1EN1State ApplicationX0DisableX Open Standby01Enable Low Bias ADSL2+Open1Enable Medium Bias VDSL211Enable Full Bias G.FastTable 3.Channel 2 Control MatrixS2EN2State ApplicationX0DisableX Open Standby01Enable Low Bias ADSL2+Open1Enable Medium Bias VDSL211Enable Full Bias G.FastDisable State: Amplifier output = VS/2. The Disable state should be used during the receive period. The device presents a controlled low impedance to the line during this state.Standby State: Amplifier bias current removed. This is the lowest power state. Amplifier output is high impedance. Gain-setting feedback resistors are still connected across amplifier output pins, creating 1300ohm differential impedance at pins.Bias States: Line Driver is active for transmission. States are different only in the amount of bias current to the amplifiers, and therefore power consumption. There is a trade-off between bias current and bandwidth. APPLICATIONSThe Le87282 integrates two sets of high-power line driver amplifiers that can be connected for half-duplex differential line transmissions. The amplifiers are designed to be used with signals up to 106 MHz with low signal distortion. The Le87282 can be used for G.Fast applications as illustrated in Figure 2, or it can be used for VDSL2 or ADSL2+ applications. For VDSL2 or ADSL2+ applications, the output resistor values need to be reduced in order to achieve the desired load power of these applications.Figure 2 shows a G.Fast application circuit with amplifiers A and B in transmission and amplifiers C and D in the receive period (Disable state). Amplifiers C and D drive 0 ohms in the Disable state.Figure 2.Typical G.Fast Application CircuitInput ConsiderationsThe driving source impedance should be less than 100 nH to avoid any ringing or oscillation.Output Driving ConsiderationsThe internal metallization is designed to carry up to about 100 mA of steady DC current and there is no current limit mechanism. The device does feature integrated thermal shutdown protection however with hysteresis. Driving lines with no series resistor is not recommended.Power Supplies and Component PlacementThe power supplies should be well bypassed close to the Le87282 device. A 2.2 µF tantalum capacitor and a 0.1 µF ceramic capacitor for the VS supply is recommended.Line Driver ProtectionHigh voltage transients such as lightning can appear on the telephone lines. Transient protection devices should be used to absorb the transient energy and clamp the transient voltages. The series output termination resistors limit the current going into the line driver and internal clamps. The protection scheme depends on the type of data transformer used and the line protection components used in the front of the data transformer.PHYSICAL DIMENSIONSNote:Packages may have mold tooling markings on the surface. These markings have no impact on the form, fit or function of the de-vice. Markings will vary with the mold tool used in manufacturing.Information relating to products and services furnished herein by Microsemi Corporation or its subsidiaries (collectively “Microsemi”) is believed to be reliable. However, Microsemi assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Microsemi or licensed from third parties by Microsemi, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Microsemi, or non-Microsemi furnished goods or services may infringe patents or other intellectual property rights owned by Microsemi.This publication is issued to provide information only and (unless agreed by Microsemi in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Microsemi without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user’s responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical and other products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Microsemi’s conditions of sale which are available on request.For more information about all Microsemi productsvisit our website at TECHNICAL DOCUMENTATION – NOT FOR RESALE© 2019 Microsemi Corporation. All rights reserved. Microsemi and the Microsemi logo are trademarks of Microsemi Corporation. All other trademarks and service marks are the property of their respective owners.Microsemi Corporation (NASDAQ: MSCC) offers a comprehensive portfolio of semiconductor solutions for: aerospace, defense and security; enterprise and communications; and industrial and alternative energy markets. Products include mixed-signal ICs, SoCs, and ASICs;programmable logic solutions; power management products; timing and voice processing devices; RF solutions; discrete components; and systems. Microsemi is headquartered in Aliso Viejo, Calif. Learn more at .Microsemi Corporate HeadquartersOne Enterprise, Aliso Viejo CA 92656 USA Within the USA: +1 (949) 380-6100Sales: +1 (949) 380-6136。
ACPL-790B、ACPL-790A、ACPL-7900隔离放大器评估板用户手册快速启动指南说明书
ACPL-790B, ACPL-790A, ACPL-7900Isolation Amplifi er Evaluation Board User ManualUser GuideQuick-Start GuideOnce visual inspection is done to ensure that the Evaluation Board is received in good condition, the Evaluation Board can be powered up in just 3 simple steps according to Figure 1 as shown:1. Select either one of the provided sensing resistors (10mΩ or 15mΩ), or user’s own sensing resistor and mount it (through soldering) on pads provided for R1 on the Evaluation Board;2. Connect the necessary power supplies and current source as shown:a. Connect 1st isolated 5V DC supply (DC Supply 1) to connector CON1 as shown;b. Connect a 3.3V DC supply (DC Supply 2, can be non-isolated) to connector CON2 as shown;c. Connect, through soldering, the required input current source (for sensing) cables as shown;3. Supply the input current (subject to a maximum signal level of 250mVpp, or ±125mVdc across resistor R1) through the cables (as shown in 2c) and monitor the output through an oscilloscope.Figure 1. Default Test Setup of Evaluation Board2c. Connect current source cables2b. Connect DC supply 2.+3.3V Gnd13. Output to oscilloscope or MCU2a. Connect DC supply 1.+5V Gnd1easily test the performance of the high-precision isola-tion amplifi er in an actual application under real-life op-erating conditions. Many of the circuit recommendations discussed in Application Note 1078 are implemented on the board. Operation requires merely the addition of a 5V Supply and a low-resistance shunt resistor on the in-put side of the isolation amplifi er. The board has holes for mounting a through-hole shunt, and pads for mounting a surface-mount shunt. The board may also be used for general voltage isolation without any shunt resistor.As can be seen on the board, the isolation circuitry is easily contained within a small area while maintaining adequate spacing for good voltage isolation and easy assembly. The overall size of the evaluation board has been enlarged to allow mounting of feet for stand-alone use (using the 4 drilled holes at the corners of the board).shown in the tables by setting J1, J2, J3 and J4 as shown.Figure 3. Top View of ACPL-790X Evaluation BoardTable 1.Recommended Vinfor better linearity [1]Vdd1Vdd2Vdd3-Vdd3Default Setup 1<230mVpp+5Vdc+3.3Vdc+3.3Vdc0VSetup 2<500mVpp+5Vdc+3.3Vdc+3.3Vdc-3.3VdcSetup 3<230mVpp+5Vdc+5Vdc+3.3Vdc0VSetup 4<500mVpp+5Vdc+5Vdc+3.3Vdc-3.3VdcSetup 5<440mVpp+5Vdc+5Vdc+5Vdc0VSetup 6<550mVpp+5Vdc+5Vdc+5Vdc-5VdcNotes1. Linear input range is limited by the post-amp output swing range. To avoid this limitation, directly measure the VOUT+, VOUT– of the isolationamplifi er.In order to satisfy the above Vdd1, Vdd2, Vdd3 and –Vdd3 voltages, J1, J2, J3 and J4 must be set according to the table as shown below:Table 2.J1 [1]J2J3J4RemarksDefault Setup 1AlwaysshortedShorting Vdd2& Vdd3 pinsShort Open Only 2 external supplies (+5V Vdd1 & isolated +3,3V for Vdd2) areneededSetup 2Alwaysshorted Shorting Vdd2& Vdd3 pinsOpen Short 3 external supplies (+5V Vdd1, isolated +3,3V for Vdd2 and Vdd3,while isolated -3,3V for –Vdd3) are needed.Setup 3Alwaysshorted Shorting Vdd3& C8_2 pinsShort Open Only 2 external supplies (+5V Vdd1 & isolated +5V for Vdd2) areneeded, Vdd3 is obtained thru converter U3.Setup 4Alwaysshorted Shorting Vdd3& C8_2 pinsOpen Short 3 external supplies (+5V Vdd1 & isolated +5V for Vdd2, whileisolated -3,3V for –Vdd3) are needed, Vdd3 is obtained thruconverter U3.Setup 5Alwaysshorted Shorting Vdd2& Vdd3 pinsShort Open Only 2 external supplies (+5V Vdd1 & isolated +5V for Vdd2 &Vdd3) are needed.Setup 6Alwaysshorted Shorting Vdd2& Vdd3 pinsOpen Short 3 external supplies (+5V Vdd1, isolated +5V for Vdd2 & Vdd3,while isolated -5V for –Vdd3) are needed.Notes1. To obtain +5Vdc at Vdd1, a 9V Battery can be connected across Pin-2 and 3 of CON1 connector or by connecting an external +5V DC supply directlyto Pin-1 and 3 of CON1 connector. J1 can be left shorted permanently unless U2 is non-functioning.The output signal is measured between the “Vout” and “GND2” terminals (at the output side of the board). With all con-nections made and power supplies turned on, the approximate relationship of output voltage to input current is:V OUT = 8.2 x V IN, whereV IN= R SENSE x I IN;With the shunt resistor in place, the maximum diff erential input voltage swing for linear operation is ±200mV as speci-fi ed in the datasheet. However, input voltage as high as ±300mV can be safely applied with minimal performance degradation.When 68pF capacitance is selected for both C9 and C10, the bandwidth will be limited to 150kHz. To obtain 200kHz bandwidth, change both C9 & C10 to 47pF.For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.Data subject to change. Copyright © 2005-2011 Avago Technologies. All rights reserved.AV02-3107EN - July 15, 2011Output MeasurementA sample Vout against Vin waveforms are captured and shown in Figure 4 below. (Orange and Green traces are the input and output voltages respectively).V IN+ = 100 mV, 50kHz.Vout is taken at U4 Vout node, which is at pin-3 of Connector CON2.Figure 4. Vout vs Vin Voltage Waveforms。
MB89890资料
s PRODUCT LINEUP
Part number Item
MB89898
MB89899
MB89P899 One-time product OTPROM product 60 K × 8 bits (internal OTPROM) 2.0 K × 8 bits 8 bits 1 to 3 bytes 1, 8, 16 bits 136 Internal
approximately 1208 bps, approximately 2415 bps modem output 16 21 bits 15 bits Watch mode, subclock mode, sleep mode, stop mode CMOS 2.2 V to 6.0 V 2.7 V to 6.0 V MBM27C512-20TV
P97/INT27 P96/INT26 P95/INT25 P94/INT24 P93/INT23 P92/INT22 P91/INT21 P90/INT20 P87 P86 P85 P84 P83 P82 P81 P80 P77 P76 P75/BSO2 P74/BSI2 P73/BSK2 VSS P72/SO2 P71/SI2 P70/SK2 P67/BSO1 P66/BSI1 P65/BSK1 P64 P63/MSKO
s FEATURES
• • • • • • • • • • • • F2MC-8L family CPU core Dual clock control system Maximum memory size: 64 Kbytes Minimum execution time: 0.5 µs at 8 MHz Interrupt processing time: 4.5 µs at 8 MHz I/O ports: Max 85 ports 21-bit time-base counter 8-bit PWM timer DTMF generator 8/16-bit timer 8-bit serial I/O Serial I/O with 1-byte buffer
PaperStream IP扫描驱动程序与集成软件的最新版本说明书
Advanced productivity for high-volume scanning
The fi-7900 scans A4 landscape documents at high speeds of 140 ppm/280 ipm (200/300 dpi). It is capable of scanning up to A3 sized portrait documents and can load up to 500 sheets at a time.
Organized paper ouWput for clean and fast workflows Not only do we ensure that paper is fed through smoothly but also that output is made in neat stacks. The improved Stacking Control function and Elevator Stacker allow operators to quickly gather documents after scanning so that WKH\ can quickly move on to the next batch, and scan multiple batches in shorter times.
Advanced software for maximized efficiency Empower operator workflows and feed information efficiently with our latest PaperStream IP scanner driver and integrated software. With a few simple setting configurations, Automatic Profile Selection allows documents to undergo image processing appropriate to each document format. Operators no longer need to sort documents manually since the driver works with PaperStream Capture to link document formats to specific saving destinations. Image processing functionaOLties are also enhanced with Advanced Cleanup Technology providing strong character recognition and image cleanup for better OCR accuracy. All these IXQFWLRQV work together to offer a wider variety of batch scanning features and assist operator workflows.
KT0933_datasheet_V1.3
Monolithic Digital AM/FM ReceiverRadio-on-a-Chip™Table of Content1.Electrical Specification (4)2.Typical performance characteristics (6)2.1.FM Characteristics (6)2.2.AM Characteristics (7)3.Pin List (8)4.Function Description (9)4.1.Overview (9)4.2.FM Receiver (9)4.3.AM Receiver (9)4.4.Operation Bands (9)4.5.Standby (9)4.6.Crystal and reference clock (9)4.7.Digital Signal Processing (10)4.7.1.FM Stereo Decoder (10)4.7.2.Mute / Softmute (11)4.7.3.Stereo / Mono Blending (12)4.7.4.Bass (12)4.7.5.Stereo DAC, Audio Filter and Driver (13)4.7.6.AM Channel Filter Bandwidth (13)4.7.7.Tune (13)4.7.8.SEEK (13)4.8.I2C Control Interface (13)4.9.Register Bank (17)4.9.1.DEVICEID0 (Address 0x0000) (17)4.9.2.DEVICEID1 (Address 0x0001) (17)4.9.3.KTMARK0 (Address 0x0002) (17)4.9.4.KTMARK1 (Address 0x0003) (17)4.9.5.PLLCFG0 (Address 0x0004) (17)4.9.6.PLLCFG1 (Address 0x0005) (17)4.9.7.PLLCFG2 (Address 0x0006) (17)4.9.8.PLLCFG3 (Address 0x0007) (17)4.9.9.SYSCLK_CFG0 (Address 0x0008) (18)4.9.10.SYSCLK_CFG1 (Address 0x0009) (18)4.9.11.SYSCLK_CFG2 (Address 0x000A) (18)4.9.12.XTALCFG (Address 0x000d) (18)4.9.13.RXCFG0 (Address 0x000e) (18)4.9.14.RXCFG1 (Address 0x000f) (19)4.9.15.BANDCFG3 (Address 0x0019) (19)4.9.16.MUTECFG0 (Address 0x001a) (19)4.9.17.G38KCFG0 (Address 0x001b) (20)4.9.18.SOFTMUTE0 (Address 0x001d) (20)4.9.19.SOFTMUTE1 (Address 0x001e) (20)4.9.20.SOFTMUTE2 (Address 0x001f) (20)4.9.21.SOFTMUTE3 (Address 0x0020) (21)4.9.22.SOFTMUTE4 (Address 0x0021) (21)4.9.23.SOFTMUTE5 (Address 0x0022) (21)4.9.24.SOUNDCFG (Address 0x0028) (22)4.9.25.FLT_CFG (Address 0x0029) (22)4.9.26.DSPCFG0 (Address 0x002a) (22)4.9.27.DSPCFG1 (Address 0x002b) (22)4.9.28.DSPCFG2 (Address 0x002c) (23)4.9.29.DSPCFG6 (Address 0x0030) (23)4.9.30.EMC_CFG0 (Address 0x0031) (24)4.9.31.DSPCFG7 (Address 0x0034) (24)4.9.32.DSPCFG8 (Address 0x0035) (24)4.9.33.AFC2 (Address 0x003e) (24)4.9.34.AFC3 (Address 0x003f) (25)4.9.35.ANACFG (Address 0x004e) (25)4.9.36.AMCALI0 (Address 0x0055) (25)4.9.37.AMDSP0 (Address 0x0062) (26)4.9.38.AMDSP1 (Address 0x0063) (26)4.9.39.AMDSP4 (Address 0x0066) (26)4.9.40.AMDSP7 (Address 0x0069) (27)4.9.41.STATUS10 (Address 0x0079) (27)4.9.42.SPARE0 (Address 0x0085) (28)4.9.43.FMCHAN0 (Address 0x0088) (28)4.9.44.FMCHAN1 (Address 0x0089) (28)4.9.45.AMCHAN0 (Address 0x008c) (28)4.9.46.AMCHAN1 (Address 0x008d) (28)4.9.47.STATUS0 (Address 0x00de) (29)4.9.48.STATUS4 (Address 0x00e2) (29)4.9.49.STATUS6 (Address 0x00e4) (29)4.9.50.STATUS7 (Address 0x00e5) (29)4.9.51.STATUS8 (Address 0x00e6) (30)4.9.52.AFC_STATUS0 (Address 0x00e8) (30)4.9.53.AFC_STATUS1 (Address 0x00e9) (30)4.9.54.AMSTATUS0 (Address 0x00ea) (30)4.9.55.AMSTATUS2 (Address 0x00ec) (31)4.9.56.AMSTATUS3 (Address 0x00ed) (31)5.Typical Application Circuit (32)6.Package Outline (33)7.Order Information (34)8.Revision History (34)9.Contact Information (35)1.Electrical SpecificationTable 4: AM Receiver Characteristics2.Typical performance characteristics2.1.FM CharacteristicsTest condition (Ta = 27℃, VDD= 3.0V, Crystal=32.768KHz, SNR=40dB, FMOD=1KHz, 75us de-emphasis,MONO=1,△F=22.5KHz,Without weighting filter)Test condition (Ta = 27℃, VDD= 3.0V, Crystal=32.768KHz, FMOD=1KHz, 75us de-emphasis, MONO=0,△F=75KHz,P in=60dBuVEMF, Without weighting filter)Test condition (Ta = 27℃, VDD= 3.0V, Crystal=32.768KHz, FMOD=1KHz, 75us de-emphasis, MONO=1,△F=22.5KHz,P in=60dBuVEMF, Without weighting filter)2.2.AM CharacteristicsTest condition (Ta = 27℃, VDD= 3.0V, Crystal=32.768KHz, SNR=20dB, FMOD=1KHz,AM modulation index=30%,Without weighting filter, ferrite antenna =420uH,distance between Tx&Rx antenna=60cm )Test condition (Ta = 27℃, VDD= 3.0V, Crystal=32.768KHz, SNR=20dB, FMOD=1KHz,AM modulation index=30%,Without weighting filter, ferrite antenna =420uH,distance between Tx&Rx antenna=60cm )3.Pin ListFigure 1:KT0933 Pin assignment (Top view)4.Function Description4.1.OverviewKT0933 offers a true single-chip, full-band FM/AM and versatile radio solution by minimizing the external components and offering a variety of configurations.4.2.FM ReceiverKT0933 enters FM mode by setting register AM_FM to 0. The FM receiver is based on the architecture of KT Micro’s latest generation FM receiver chips in mass production. There are no external filters or frequency-tuning devices thanks to a proprietary digital low-IF architecture consisting of a fully-integrated LNA, an automatic gain control (AGC), a set of high-performance ADCs, high-quality analog and digital filters, and an on-chip low-noise self-tuning VCO. The on-chip high-fidelity Class-AB driver further eliminates the need for external audio amplifiers and can drive stereo headphones directly.4.3.AM ReceiverKT0933 enters AM mode by setting register AM_FM to 1. The AM Receiver employs a similar digital low IF architecture and share many circuits with the FM receiver. The minimum AM channel spacing can be set to 1KHz. The bandwidth of the channel filter can be set to 1KHz to 5KHz to suit various requirements.The AM receiver in KT0933 can provide accurate and automatic AM tuning without manual alignment. It supports ferrite loop antenna with value between 360uH and 620uH.4.4.Operation BandsKT0933 supports wide FM band and AM bands. The FM receiver covers frequencies from 32MHz to 110MHz. The AM band is from 500KHz to 1750KHz.4.5.StandbyTo enter standby mode, the STDBY register shall be set to 1 through I2C interface. To quit standby mode, STDBY should be set to 0.4.6.Crystal and reference clockKT0933 integrates a low frequency crystal oscillator that supports 32.768KHz or 38KHz crystals. Alternatively a CMOS level external reference clock may be used by setting the RCLK_EN register to 1 and setting FPFD<19:0> according to the frequency of the reference clock. The FPFD<19:0> is the frequency value in the unit of 1/16Hz. In order to illuminate the usage of these bits clearly some examples are given in Table 6.Table 6: Examples using different crystal or reference clockode, the audio volume is gradually attenuated when the signal reception is weak. (i.e. whe n the RSSI and SNR are below a certain level as defined by AM_SMUTE_START_RSS I<2:0> or AM_SMUTE_START_ SNR<2:0>, respectively.) The attenuation slope can be configured through AM_SMUTE_SLOPE_ RSSI<2:0> or AM_SMUTE_SLOPE_SNR< 2:0>, respectively.The maximum attenuation of volume is -21dB when RSSI is used as soft mute judgment threshold. The maximum attenuation of volume is -12dB when RSSI is used as soft mutejudgment threshold. The maximum total attenuation of volume can be configured through AM_SMUTE_MIN_GAIN<2:0>.MONO playback mode can be forced by setting the MONO to 1.4.7.4. BassKT0933 provides bass boost feature for audio enhancement. The gain of the bass boost can be programmed through BASS<1:0>. With BASS<1:0>=00, this feature is disabled.4.7.5. Stereo DAC, Audio Filter and DriverTwo high-quality audio digital-to-analog converters (DAC) are integrated along with high-fidelity analog audio filters and class AB drivers. Headphones with impedance as low as 16ohms can be direct driven without adding external audio drivers. An integrated anti-pop circuit suppresses the click-and-pop sound during power up and power down.In order to suit different applications, the gain of the audio driver can be adjusted through register bits FM_GAIN<2:0> , AM_GAIN<3:0>and AM_VOLUME<3:0>and to avoid the saturation in output stage, the common mode voltage can also be adjust according to different power supply voltage through register bits AUDV_DCLVL<2:0>.4.7.6. AM Channel Filter BandwidthKT0933 provides programmable AM channel bandwidth from 1KHz to 5KHz through FLT_SEL <2:0>.4.7.7. TuneThe fully integrated LO synthesizer supports wide band operation. Before tuning,the register of Channel should be written,and then write the register TUNE. Channel tuning is started when the register TUNE is set to 1.In FM mode, the channel frequency is set by FM_CHAN<11:0> and is defined asFreq(KHz) = 50KHz × FM_CHAN<11:0>In AM mode, the channel frequency is set by AM_CHAN<14:0> and is defined asFreq(KHz) = 1KHz × AM_CHAN<14:0>4.7.8. SEEKKT0933 offers effective software based seek algorithm. Refer to application notes for more information.4.8.I2C Control InterfaceWrite Operations:BYTE WRITE:The write operation is accomplished via a 3-byte sequence:Serial address with write commandRegister addressRegister dataA write operation requires an 8-bit register address following the device address word and acknowledgment. Upon receipt of this address, the KT0933 will again respond with a “0” and then clock in the 8-bit register data. Following receipt of the 8-bit register data, the KT0933 will output a “0” and the addressing device, such as a microcontroller, must terminate the write sequence with a stop condition (see Figure 4).Read Operations:RANDOM READ:The read operation is accomplished via a 4-byte sequence:CURRENT ADDRESS READ:last address accessed during the last read or write operation, incremented by one. This address stays valid between operations as long as the chip power is maintained.Once the device address with the read/write select bit set to “1” is clocked in and acknowledged by the KT0933, the current address data word is serially clocked out. The microcontroller does not respond with an input “0” but does generate a following stop condition (see Figure 5).CURRENT REGISTER READPROCEDUREFigure 5: Serial Interface ProtocolNote:The serial controller supports slave mode only. Any register can be addressed randomly.The address of the slave in the first 7 bits and the 8th bit tells whether the master is receiving data from the slave or transmitting data to the slave. The I2C write address is 0x6C and the read address is 0x6D.CLOCK and DATA TRANSITIONS: The SDA pin is normally pulled high with an external device. Data on the SDA pin may change only during SCL low time periods (see Figure6). Data changes during SCL high periods will indicate a start or stop condition as defined below.START CONDITION: A high-to-low transition of SDA with SCL high is a start condition which must precede any other command (see Figure gure 7).STOP CONDITION: A low-to-high transition of SDA with SCL high is a stop condition. After a read sequence, the stop command will place the KT0933 in a standby power mode (see Figure 7).ACKNOWLEDGE: All addresses and data words are serially transmitted to and from the KT0933 in 8-bit words. The KT0933 sends a “0” to acknowledge that it has received each word. This happens during the ninth clock cycle (see Figure 8).Figure 6: Clock and Data TransitionsFigure 7: Start and Stop DefinitionFigure 8: Acknowledge4.9.Register Bank4.9.1. DEVICEID0 (Address 0x0000)4.9.8. PLLCFG3 (Address 0x0007)4.9.9. SYSCLK_CFG0 (Address 0x0008)4.9.10. SYSCLK_CFG1 (Address 0x0009)4.9.14. RXCFG1 (Address 0x000f)4.9.17. G38KCFG0 (Address 0x001b)4.9.23. SOFTMUTE5 (Address 0x0022)4.9.24. SOUNDCFG (Address 0x0028)4.9.28. DSPCFG2 (Address 0x002c)4.9.30. EMC_CFG0 (Address 0x0031)4.9.34. AFC3 (Address 0x003f)4.9.37. AMDSP0 (Address 0x0062)4.9.40. AMDSP7 (Address 0x0069)4.9.42. SPARE0 (Address 0x0085)4.9.46. AMCHAN1 (Address 0x008d)4.9.47. STATUS0 (Address 0x00de)4.9.51. STATUS8 (Address 0x00e6)4.9.52. AFC_STATUS0 (Address 0x00e8)4.9.55. AMSTATUS2 (Address 0x00ec)5.Typical Application CircuitU16.Package OutlineSymbol Dimensions In MillimetersMin.Nom.Max.A - - 1.75A1 0.10 - 0.225A2 1.30 1.40 1.50A3 0.50 0.60 0.70b 0.24 - 0.30b1 0.23 0.254 0.28c 0.20 - 0.25c1 0.19 0.20 0.21D 4.80 4.90 5.00E 5.80 6.00 6.20E1 3.80 - 4.00e 0.635BSCh 0.25 - 0.50L 0.50 0.65 0.80L1 1.05BSCθ0 º- 8º7.Order Information8. Revision HistoryV1.0 Firstly Release.V1.1 Modified Electrical specification, Typical performance characteristics. V1.2 Modified Function description.V1.3 Modified Typical performance characteristics.9.Contact InformationBeijing KT Micro, Ltd.BeiWu New Technology Park, Building #4, 23 BeiWuCun Road, Haidian District, Beijing, ChinaZip Code: 100195Tel: +86-10-88891955+86-10-88891947(direct)Fax: +86-10-88891977Email: sales@Beijing KT Micro, Ltd. (US Office)999 Corporate Drive, Suite 170Ladera Ranch, CA 92694USATel: 949-713-4000Fax: 949-713-4004Email: sales@。
PFU Limited 2021 最新版 Paper-Stream IP 扫描器驱动程序和集成软件说
Advanced software for maximized efficiencyEmpower operator workflows and feed information efficiently with our latest Paper-Stream IP scanner driver and integrated software. With a few simple setting configura-tions, Automatic Profile Selection allows documents to undergo image processing appropriate to each document format. Operators no longer need to sort documents manually since the driver works with Paper-Stream Capture to link document formats to specific saving destinations. Image processing functionalities are also enhanced with Advanced Cleanup Technology providing strong character recognition and image clean-up functionalities for better OCR accuracy. All these functionalities work together to offer a wider variety of batch scanning features and assist operator workflows.Organized paper output for clean and fast workflowsNot only do we ensure that paper is fed through smoothly but also that output is made in neat stacks. The improved Stacking Control function and Elevator Stacker allow operators to quickly gather documents after scanning so that operators can quickly move on to the next batch, and scan multiple batches in shorter times.Stress-free usability with an operator-friendly designThe fi-7900 is designed to make the operator experience easy. Operators can scan directly from the scanner with the job-registration function, and complete various operations on the easily-accessible operator panel and LCD status display. Ease of use also applies to routine maintenance of the scanner. The fi-7900’s LED lights make cleaning dust, debris, and ink residue build-up from the glasssimply easy and stress-free.The fi-7900 scans A4 landscape documents at high speeds of 140 ppm/280 ipm (200/300 dpi). It is capable of scanning up to A3 sized portrait documents and can load up to 500 sheets at a time.Accurate feeding to maximize productivityOur production scanners are designed to build productive workflows. In addition to our reliable feeding, the fi-7900 comes with a variety of functionalities that make feedingperformance even better. Finish scanning faster without the need to make any rescans, using the all-new Automatic Separation Control function. This new function automati-cally calibrates torque on the brake rollers and guarantees that documents go through one at a time. The fi-7900 now also comes with the fi Series signature Skew Reducer function providing independent separator rollers to ensure skewed documents do not affectdocuments to follow.Advanced productivity for high-volume scanningDatasheetFUJITSU Image Scanner fi-7900Datasheet FUJITSU Image Scanner fi-7900ContactTrademarksABBYY™ FineReader™ Engine © ABBYY. OCR by ABBYY. ABBYY and FineReader are trademarks of ABBYY Software, Ltd. which may be registered in some jurisdictions. ISIS is a trademark of Open Text. Microsoft, Windows, and Windows Server are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. Any other products or company names appearing in this document are the trademarks or registered trademarks of the respective companies.Safety PrecautionsBe sure to carefully read all safety precautions prior to using this product and use this device as instructed. Do not place this device in wet, moist, steamy, dusty or oily areas. Using this product under such conditions may result in electrical shock, fire or damage to this product. Be sure to limit the use of this product to listed power ratings.ENERGY STAR®PFU Limited, a Fujitsu company, has determined that this product meets the ENERGY STAR® guidelines for energy efficiency. ENERGY STAR® is a registered trademark of the United States.Specifications are subject to change without notice. Visit your local Fujitsu website for more information.*1 Actual scanning speeds are affected by data transmission and software processing times. *2 Indicated speeds are from using JPEG compression. *3 Indicated speeds are from using TIFF CCITT Group 4 compression. *4 When scanning in high resolutions (500 dpi or above), scanning may be rejected depending on scanning mode, document size, memory size, and application program. Selectable maximum resolution may vary depending on the length of the scanned document. *5 Limitations may apply to the size of documents that can be scanned, depending on system environment, when scanning at high resolution (over 600 dpi).*6 Documents between 431.8 mm (17 in.) and 863 mm (34 in.) in length are limited to 400 dpi. Documents between 863 mm and 3,175 mm (125 in.) in length are limited to 300 dpi. *7 Maximum capacity depends on paper weight and may vary. *8 Numbers are calculated using scanning speeds and typical hours of scanner use, and are not meant to guarantee daily volume or unit durability. *9 With the ADF hopper closed.*10 Requires PaperStream IP 2.0.0 or earlier and PaperStream Capture 2.8.2 or earlier. *11 Functions equivalent to those offered by PaperStream IP may not be available with the WIA Driver. *12 Refer to the fi Series Support Site for driver/software downloads and full lineup of all supported operating system versions.4,000,000 printed characters or 6 months after opening the bagPrint Cartridge CA00050-0262Brake RollerPA03575-K013Every 600,000 sheets or one yearSeparator Roller PA03800-K012 Every 600,000 sheets or one year Pick Roller PA03575-K011 Every 600,000 sheets or one year ConsumablesPA43404-A695 PaperStream Capture Pro optional license PaperStream Capture Pro Scan Station (MV)PA03575-D203 Back-side printing on document Post Imprinter (FI-680PRB) PA03575-D201 Front-side printing on document Post Imprinter (FI-680PRF) OptionsAC cable, USB cable, Setup DVD-ROMMulti image output, Automatic color detection, Blank page detection, Static threshold, Dynamic threshold (iDTC), Advanced DTC, SDTC, Error diffusion, Dither, De-Screen, Emphasis, Dropout color (None/Red/Green/Blue/White/Saturation/Custom), sRGB output, Hole punch removal, Cropping, Index tab cropping, Split image, De-Skew, Edge correction, Vertical streaks reduction, Character extraction, Background pattern removal, Automatic profile selectionPaperStream IP driver (TWAIN/TWAIN x64/ISIS), WIA Driver *¹¹, PaperStream Capture, PaperStream ClickScan *¹², 2D Barcode for PaperStream *¹², Software Operation Panel, Error Recovery Guide, ABBYY FineReader for ScanSnap™*¹², Scanner Central AdminWindows® 11, Windows® 10, Windows® 8.1, Windows® 7, Windows Server® 2022, Windows Server® 2019, Windows Server® 2016, Windows Server® 2012 R2, Windows Server® 2012, Windows Server® 2008 R2, Windows Server® 2008*¹⁰Included Items Image Processing FunctionsIncluded Software / Drivers32 kg (70 lb)Supported Operating SystemWeight460 x 430 x 310 mm (18.1 x 16.9 x 12.2 in.)Dimensions *⁹(Width x Depth x Height)ENERGY STAR®, RoHSEnvironmental Compliance 20 to 80% (non-condensing)Relative Humidity5 to 35 °C (41 to 95 °F)Temperature Operating Environment Less than 0.3 WAuto Standby (Off) Mode 3.2 W or less Sleep Mode200 W or less Operating Mode Power Consumption AC 100 to 240 V ± 10%Power Requirements USB 2.0 / USB 1.1InterfaceLag detection Paper Protection Overlap detection (Ultrasonic sensor),Length detection Multifeed Detection 120,000 sheetsExpected Daily Volume *⁸500 sheets (A4 80 g/m² or Letter 20 lb)ADF Capacity *⁷41 to 209 g/m² (11 to 56 lb)20 to 209 g/m² (5.4 to 56 lb)A4 to A5 SizeLess than A5 Size / Over A4 Size Paper Weight (Thickness)5,588 mm (220 in.)Long Page Scanning *652 x 74 mm (2 x 3 in.)Minimum304.8 x 431.8 mm (12 x 17 in.)Maximum Document Size White / Black (selectable)Background Colors Color: 24-bit, Grayscale: 8-bit, Monochrome: 1-bit Output Format 50 to 600 dpi (adjustable by 1 dpi increments)1,200 dpi (driver)*⁵Output Resolution *⁴(Color / Grayscale / Monochrome)600 dpiOptical ResolutionWhite LED Array x 4 (front x 2, back x 2)Light Source Color CCD x 2 (front x 1, back x 1)Image Sensor Type Simplex: 105 ppm (200/300 dpi)Duplex: 210 ipm (200/300 dpi)Scanning Speed *¹ (A4 Portrait)(Color *²/Grayscale *²/Monochrome *³)Simplex: 140 ppm (200/300 dpi)Duplex: 280 ipm (200/300 dpi)Scanning Speed *¹ (A4 Landscape)(Color *²/Grayscale *²/Monochrome *³)ADF (Automatic Document Feeder) / Manual Feed, DuplexScanner TypeTechnical InformationDatasheet FUJITSU Image Scanner fi-7900IndonesiaPT Fujitsu Indonesia Tel: +62 21 570 9330*************************/id/scannersMalaysiaFujitsu (Malaysia) Sdn Bhd Tel: +603 8230 4188askfujitsu .my @/my/scannersPhilippinesFujitsu Philippines, Inc. Tel: +63 2 841 8488 ***************.com/ph/scannersSingaporeFujitsu Asia Pte Ltd Tel: +65 6512 7555 *******************/sg/scannersThailandFujitsu (Thailand) Co., Ltd. Tel: +66 2 302 1500 info .th @/th/en/scannersVietnamFujitsu Vietnam Limited Tel: + 84 4 2220 3113 sales -vn @/vn/en/scanners。
MB90880资料
DS07-13743-2EFUJITSU SEMICONDUCTORDATA SHEETCopyright©2006-2007 FUJITSU LIMITED All rights reserved“Check Sheet” is seen at the following support pageURL : /global/services/microelectronics/product/micom/support/index.html“Check Sheet” lists the minimal requirement items to be checked to prevent problems beforehand in system development.Be sure to refer to the “Check Sheet” for the latest cautions on development.16-Bit Proprietary MicrocontrollerCMOSF 2MC-16LX MB90880 SeriesMB90F882(S)/F883(S)/F883A(S)/F884(S)/F884A(S)MB90882(S)/883(S)/884(S)/V880(A)-101/-102■DESCRIPTIONThe MB90880 series is a general-purpose 16-bit microcontroller, designed by F ujitsu, for process control of devices such as consumer appliances, which require high-speed real-time processing capabilities.The instruction set of the F 2MC-16LX CPU core retains the same AT architecture as the F 2MC*1 family, with further refinements including high-level language instructions, an expanded addressing mode, enhanced multiplier-divider instructions and bit processing. In addition, a 32-bit accumulator is built in to enable long word processing. As its peripheral resources, the MB90880 series has a 16-bit PPG, multi-function serial interface (software switch over enabled for SIO, UART and I 2C*2) , 10-bit A/D converter, 16-bit I/O timer, 8/16-bit up-down counter, base timer (software switch over enabled for 16-bit reload timer, PWC timer, PPG timer and PWM timer) , DTP / external interrupt and chip select pins.*1 : F 2MC is the abbreviation of FUJITSU Flexible Microcontroller.*2 : Purchase of Fujitsu I 2C components conveys a license under the Philips I 2C Patent Rights to use, thesecomponents in an I 2C system provided that the system conforms to the I 2C Standard Specification as defined by Philips.MB90880 Series2■FEATURES•ClockMinimum instruction execution time : 30.3 ns / 4.125 MHz source oscillation × eight times(in internal operation : 33 MHz/3.3 V ± 0.3 V)PLL clock multiplication system•Maximum memory space16 Mbytes•Instruction set optimized for control applicationsSupported data types : bit, byte, word and long wordStandard addressing modes : 23 typesEnhanced high-precision calculation realized by 32-bit accumulatorSigned multiplication/division instructions and extended RETI instruction functions•Instruction set supporting high-level language (C language) and multi-task operationsIntroduction of system stack pointerSymmetrical instruction set and barrel shift instructions•Improved execution speed4-byte queue•Powerful interrupt functionsEight priority levels programmable; External interrupts : 24•Data transfer functions (µDMAC)Up to 16 channels•Built-in ROMFlash ROM : 256, 384 and 512 Kbytes; MASK ROM : 256, 384 and 512 Kbytes•Built-in RAMFlash RAM : 16, 24 and 30 Kbytes; MASK RAM : 16, 24 and 30 Kbytes•General-purpose portsDual clock product : up to 81 channels; Single clock product : up to 83 channels•A/D converterRC successive approximation conversion type : 20 channels (Resolution : 8 or 10 bits)•Multi-function serial interface7 channels (software switchable between for SIO, UART and I2C)•16-bit PPG8 channels•8/16-bit up-down counter/timerEvent input pins : 68-bit up-down counters : 28-bit reload/compare registers : 2•Base timer4 channels (software switchable between 16-bit reload timer, PWC timer, PPG timer, and PWM timer)•16-bit I/O timerInput capture × 2 channels, output compare × 6 channels, free run timer × 1 channel•Built-in dual clock generator•Low power consumption modesStop mode, sleep mode, CPU intermittent operation mode, watch timer, time base timer mode•PackageQFP-100/LQFP-100•ProcessCMOS technology•Power supply voltage3V : Single power supply operationMB90880 Series3■PRODUCT LINEUP(Continued)ItemName MB90882 (S) MB90883 (S) MB90884 (S) MB90F882 (S)MB90F883 (S) /MB90F883A (S) MB90F884 (S) /MB90F884A (S) Class MASK ROM productFlash memory productROM size 256 Kbytes 384 Kbytes 512 Kbytes 256 Kbytes 384 Kbytes 512 Kbytes RAM size16 Kbytes24 Kbytes30 Kbytes16 Kbytes24 Kbytes30 KbytesCPU functionsNumber of instructions Instruction bit length Instruction length Data bit lengthMinimum execution time : 351: 8 bits, 16 bits : 1 to 7 bytes: 1 bit, 8 bits, 16 bits: 30.3 ns (machine clock : 33 MHz)The maximum operating frequency of MB90F883(S) and MB90F884(S) is 25 MHz.PortsGeneral-purpose I/O ports : up to 81 for dual clock model, up to 83 for single clock model General-purpose I/O ports (CMOS output)Multi-function serial interface 7 channels (software switchable between SIO, UART & I 2C) 16-bit PPG timer8 channels8/16-bit up-down counter/timer Event input pins : 6, 8-bit up-down counters : 28-bit reload/compare registers : 216-bit I/O timer16-bitfree run timerNumber of channels : 1Overflow interruptOutputcompare(OCU) Number of channels : 6Pin input source : Match signal of compare registerInput capture (ICU)Number of channels : 2Rewriting register by pin input (rising, falling or both edges) DTP/external interrupt circuit External interrupt pins : 24 channels (edge/level support)Base timer4 channels(software switchable between 16-bit reload timer, PWC timer, PPG timer, and PWM timer) In MB90F883(S) and MB90F884(S), P24/TIO0, P25/TIO1, P26/TIO2, and P27/TIO3cannot be used as input function.Time base timer18-bit counterInterrupt interval : 1.0 ms, 4.1 ms, 16.4 ms, 131.1 ms (source oscillation : 4 MHz) A/D converterConversion accuracy : 8 or 10 bits can be switchedSingle conversion mode (Selected channel converted only once) Scan conversion mode (Multiple successive channels converted)Successive conversion mode (Selected channel converted repeatedly)Stop conversion mode (Selected channel converted and stopped repeatedly) Watchdog timerReset generation interval : 3.58 ms, 14.33 ms, 57.23ms, 458.75 ms(source oscillation : 4 MHz, minimum value)MB90880 Series4(Continued)ItemNameMB90882 (S) MB90883 (S) MB90884 (S) MB90F882 (S)MB90F883 (S) /MB90F883A (S)MB90F884 (S) /MB90F884A (S) Low powerconsumption(standby)modesSleep, stop, CPU intermittent operation, watch timer, time base timerFlash memory⎯Flash security/ write-protect feature(not available in MB90F883(S), MB90F884(S),MB90F883A(S), and MB90F884A(S))Process CMOS technologyMB90880 Series5MB90880 Series6MB90880 Series7■PIN DESCRIPTIONS(Continued)Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *213P26DGeneral-purpose I/O portA22In multiplex mode, it serves as higher address output pin (A22) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A22) when corresponding bit in external address output control register (HACR) is set to "0".TIO2Base timer I/O pin (ch.2) 24P27DGeneral-purpose I/O portA23In multiplex mode, it serves as higher address output pin (A23) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A23) when corresponding bit in external address output control register (HACR) is set to "0".TIO3Base timer I/O pin (ch.3) 35P30EGeneral-purpose I/O port A00Serves as an external address pin in non-multiplex mode.ZIN08/16-bit up-down counter/timer input pin (ch.0) UI1Multi-function serial input pin 46P31EGeneral-purpose I/O portA01Serves as an external address pin in non-multiplex mode.AIN08/16-bit up-down counter/timer input pin (ch.0) UO1/ (SDA1) Multi-function serial output pin 57P32EGeneral-purpose I/O portA02Serves as an external address pin in non-multiplex mode.BIN08/16-bit up-down counter/timer input pin (ch.0) UCK1/ (SCL1) Multi-function serial clock I/O pin 68P33EGeneral-purpose I/O port A03Serves as an external address pin in non-multiplex mode.UI2Multi-function serial input pin 79P34EGeneral-purpose I/O port A04Serves as an external address pin in non-multiplex mode.UO2/ (SDA2)Multi-function serial output pinMB90880 Series8(Continued) Pin no.PinnameI/Ocircuittype*3FunctionLQFP *1QFP *2810P35EGeneral-purpose I/O portA05Serves as an external address pin in non-multiplex mode.ZIN18/16-bit up-down counter/timer input pin (ch.1)UCK2/(SCL2) Multi-function serial clock I/O pin911P36DGeneral-purpose I/O portA06Serves as an external address pin in non-multiplex mode.AIN18/16-bit up-down counter/timer input pin (ch.1)IRQ8External interrupt input pin1012P37DGeneral-purpose I/O portA07Serves as an external address pin in non-multiplex mode.BIN18/16-bit up-down counter/timer input pin (ch.1)IRQ9External interrupt input pin1113P40A/DGeneral-purpose I/O portA08Serves as an external address pin in non-multiplex mode.X0A32 kHz oscillator connecting pin1214P41A/DGeneral-purpose I/O portA09Serves as an external address pin in non-multiplex mode.X1A32 kHz oscillator connecting pin1315VCC-Power supply pin1416VSS-Power supply pin (GND)1517C-Regulator stabilization capacity connecting pin1618P42EGeneral-purpose I/O portA10Serves as an external address pin in non-multiplex mode.UI3Multi-function serial input pin1719P43EGeneral-purpose I/O portA11Serves as an external address pin in non-multiplex mode.UO3/(SDA3) Multi-function serial output pin1820P44EGeneral-purpose I/O portA12Serves as an external address pin in non-multiplex mode.UCK3/(SCL3) Multi-function serial clock I/O pin1921P45EGeneral-purpose I/O portA13Serves as an external address pin in non-multiplex mode.UI4Multi-function serial input pinMB90880 Series9(Continued)Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *22022P46EGeneral-purpose I/O port A14Serves as an external address pin in non-multiplex mode.UO4/ (SDA4) Multi-function serial output pin 2123P47EGeneral-purpose I/O portA15Serves as an external address pin in non-multiplex mode.UCK4/ (SCL4) Multi-function serial clock I/O pin 2224P90H General-purpose I/O portCS0Chip select 0AN8Analog input pin2325P91H General-purpose I/O portCS1Chip select 1AN9Analog input pin2426P92H General-purpose I/O portCS2Chip select 2AN10Analog input pin2527P93H General-purpose I/O portCS3Chip select 3AN11Analog input pin2628P94HGeneral-purpose I/O port AN12Analog input pin2729P95KGeneral-purpose I/O port AN13Analog input pin(UI3)Multi-function serial input pin (when set by P9FSR register) 2830P96KGeneral-purpose I/O port AN14Analog input pin(UO3)/ (SDA3) Multi-function serial output pin (when set by P9FSR register) 2931P97KGeneral-purpose I/O portAN15Analog input pin(UCK3)/ (SCL3)Multi-function serial clock I/O pin (when set by P9FSR register)3032AVCC -A/D converter power supply pin3133AVRH -A/D converter external reference power supply pin 3234P70HGeneral-purpose I/O port AN16Analog input pinMB90880 Series10(Continued) Pin no.PinnameI/Ocircuittype*3FunctionLQFP *1QFP *23335AVSS-A/D converter power supply pin3436P60HGeneral-purpose I/O portAN0Analog input pin3537P61HGeneral-purpose I/O portAN1Analog input pin3638P62HGeneral-purpose I/O portAN2Analog input pin3739P63HGeneral-purpose I/O portAN3Analog input pin3840P64HGeneral-purpose I/O portAN4Analog input pin3941P65HGeneral-purpose I/O portAN5Analog input pin4042P66HGeneral-purpose I/O portAN6Analog input pin4143P67HGeneral-purpose I/O portAN7Analog input pin4244VSS-Power supply pin (GND)4345P71KGeneral-purpose I/O portIRQ10External interrupt input pinAN17Analog input pin(UI4)Multi-function serial input pin (when set by P7FSR register) 4446P72KGeneral-purpose I/O portIRQ11External interrupt input pinAN18Analog input pin(UO4)/(SDA4) Multi-function serial output pin (when set by P7FSR register) 4547P73KGeneral-purpose I/O portIRQ12External interrupt input pinAN19Analog input pin(UCK4)/(SCL4) Multi-function serial clock I/O pin (when set by F7FSR register) 4648P74GGeneral-purpose I/O portIRQ13External interrupt input pinUI5Multi-function serial input pin11(Continued)Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *24749P75GGeneral-purpose I/O port UO5/ (SDA5) Multi-function serial output pin 4850P76GGeneral-purpose I/O portIRQ14External interrupt input pin UCK5/ (SCL5)Multi-function serial clock I/O pin4951MD2L Operation mode specification input pin 5052MD1L Operation mode specification input pin 5153MD0L Operation mode specification input pin 5254RST B Reset input pin5355P80GGeneral-purpose I/O port IRQ15External interrupt input pin UI6Multi-function serial input pin 5456P81GGeneral-purpose I/O portUO6/ (SDA6) Multi-function serial output pin 5557P82GGeneral-purpose I/O portIRQ16External interrupt input pin UCK6/ (SCL6)Multi-function serial clock I/O pin5658P83I General-purpose I/O port IRQ17External interrupt input pin 5759P84GGeneral-purpose I/O port UI0Multi-function serial input pin 5860P85GGeneral-purpose I/O portUO0/ (SDA0) Multi-function serial output pin 5961P86GGeneral-purpose I/O portUCK0/ (SCL0) Multi-function serial clock I/O pin 6062P87I General-purpose I/O portIRQ18External interrupt input pinADTG External trigger input pin, when A/D converter is used.6163PA0J General-purpose I/O portIRQ19External interrupt input pin(PPG4)PPG timer output pin (when set by P AFSR register)Pin no.PinnameI/Ocircuittype*3FunctionLQFP *1QFP *26264PA1JGeneral-purpose I/O portIRQ20External interrupt input pin(PPG5)PPG timer output pin (when set by P AFSR register)6365DVCC-P A port power supply pin6466DVSS-P A port power supply pin (GND)6567PA2JGeneral-purpose I/O portIRQ21External interrupt input pin(PPG6)PPG timer output pin (when set by P AFSR register)6668PA3JGeneral-purpose I/O portIRQ22External interrupt input pin(PPG7)PPG timer output pin (when set by P AFSR register)6769P50FGeneral-purpose I/O portALEServes as address latch enable signal (ALE) pin in external busmode.6870P51FGeneral-purpose I/O portRD Serves as read strobe output (RD) pin in external bus mode.6971P52FGeneral-purpose I/O portWRLServes as lower data write strobe output (WRL) pin in external busmode, and serves as a general-purpose I/O port when WRE bit inEPCR register is "0".7072P53FGeneral-purpose I/O portWRHServes as higher data write strobe output (WRH) pin in external busmode with 16-bit bus width, and serves as a general-purpose I/Oport when WRE bit in EPCR register is "0".IRQ23External interrupt input pin7173P54FGeneral-purpose I/O portHRQServes as hold request input (HRQ) pin in external bus mode, andserves as a general-purpose I/O port when HDE bit in EPCR registeris "0".PPG4PPG timer output pin7274P55FGeneral-purpose I/O portHAKServes as hold acknowledge output (HAK) pin in external bus mode,and serves as a general-purpose I/O port when HDE bit in EPCRregister is "0".PPG5PPG timer output pin1213(Continued)Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *27375P56FGeneral-purpose I/O port RDY Serves as external ready input (RDY) pin in external bus mode, and serves as a general-purpose I/O port when RYE bit in EPCR register is "0".PPG6PPG timer output pin 7476P57FGeneral-purpose I/O portCLK Serves as machine cycle clock output (CLK) pin in external bus mode, and serves as a general-purpose I/O port when CKE bit in EPCR register is "0".PPG7PPG timer output pin 7577P00CGeneral-purpose I/O portAD00/D00In multiplex mode, it serves as lower external address/data bus I/O pin.Serves as lower external data bus output pin in non-multiplex mode.IRQ0External interrupt input pin 7678P01CGeneral-purpose I/O portAD01/D01Serves as an external address/lower data bus I/O pin in multiplex mode.Serves as a lower external data bus output pin in non-multiplex mode.IRQ1External interrupt input pin 7779P02CGeneral-purpose I/O portAD02/D02Serves as an external address/lower data bus I/O pin in multiplex mode.Serves as a lower external data bus output pin in non-multiplex mode.IRQ2External interrupt input pin 7880P03CGeneral-purpose I/O portAD03/D03Serves as an external address/lower data bus I/O pin in multiplex mode.Serves as a lower external data bus output pin in non-multiplex mode.IRQ3External interrupt input pin 7981P04CGeneral-purpose I/O portAD04/D04In multiplex mode, it serves as lower external address/data bus I/O pin.Serves as a lower external data bus output pin in non-multiplex mode.IRQ4External interrupt input pin14(Continued)Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *28082P05CGeneral-purpose I/O portAD05/D05In multiplex mode, it serves as lower external address/data bus I/O pin.Serves as a lower external data bus output pin in non-multiplex mode.IRQ5External interrupt input pin 8183P06CGeneral-purpose I/O portAD06/D06In multiplex mode, it serves as lower external address/data bus I/O pin.Serves as a lower external data bus output pin in non-multiplex mode.IRQ6External interrupt input pin 8284P07CGeneral-purpose I/O portAD07/D07In multiplex mode, it serves as lower external address/data bus I/O pin.Serves as a lower external data bus output pin in non-multiplex mode.IRQ7External interrupt input pin 8385P10CGeneral-purpose I/O portAD08/D08In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.OUT0Output compare event output pin 8486P11CGeneral-purpose I/O portAD09/D09In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.OUT1Output compare event output pin 8587P12CGeneral-purpose I/O portAD10/D10In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.OUT2Output compare event output pin 8688P13CGeneral-purpose I/O portAD11/D11In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.OUT3Output compare event output pin15(Continued)Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *28789P14CGeneral-purpose I/O port AD12/D12In non-multiplex mode, it serves as higher external data output pin.OUT4Output compare event output pin8890VCC -Power supply pin 8991VSS -Power supply pin (GND) 9092X1A Main oscillator connecting pin 9193X0AMain oscillator connecting pin 9294P15CGeneral-purpose I/O portAD13/D13In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.OUT5Output compare event output pin 9395P16CGeneral-purpose I/O portAD14/D14In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.IN0T rigger input pin for input capture ch.09496P17CGeneral-purpose I/O portAD15/D15In multiplex mode, it serves as higher external address/data bus I/O pin.In non-multiplex mode, it serves as higher external data output pin.IN1T rigger input pin for input capture ch.19597P20DGeneral-purpose I/O portA16In multiplex mode, it serves as higher address output pin (A16) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A16) when corresponding bit in external address output control register (HACR) is set to "0".PPG0PPG timer output pin 9698P21DGeneral-purpose I/O portA17In multiplex mode, it serves as higher address output pin (A17) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A17) when corresponding bit in external address output control register (HACR) is set to "0".PPG1PPG timer output pin16(Continued)*1 : LQFP : FPT-100P-M20*2 : QFP : FPT-100P-M06*3 : For the I/O circuit type, refer to “■ I/O CIRCUIT TYPE”.Pin no.Pin name I/O circuit type*3FunctionLQFP *1QFP *29799P22DGeneral-purpose I/O portA18In multiplex mode, it serves as higher address output pin (A18) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A18) when corresponding bit in external address output control register (HACR) is set to "0".PPG2PPG timer output pin 98100P23DGeneral-purpose I/O portA19In multiplex mode, it serves as higher address output pin (A19) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A19) when corresponding bit in external address output control register (HACR) is set to "0".PPG3PPG timer output pin 991P24DGeneral-purpose I/O portA20In multiplex mode, it serves as higher address output pin (A20) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A20) when corresponding bit in external address output control register (HACR) is set to "0".TIO0Base timer I/O pin (ch.0) 1002P25DGeneral-purpose I/O portA21In multiplex mode, it serves as higher address output pin (A21) when corresponding bit in external address output control register (HACR) is set to "0".In non-multiplex mode, it serves as higher address output pin (A21) when corresponding bit in external address output control register (HACR) is set to "0".TIO1Base timer I/O pin (ch.1)■I/O CIRCUIT TYPE(Continued)171819■HANDLING DEVICES1.Maximum rated voltages for the prevention of latch-upBe cautious not to exceed the absolute maximum rating.CMOS ICs may cause latch-up, when a voltage higher than V CC or lower than V SS is applied to input or output pins other than medium-to-high resistant pins, or when a voltage exceeding the rating is applied between VCC and VSS pins.If latch-up occurs, the power supply current increases rapidly, sometimes resulting in thermal breakdown of the device. Take the utmost care not to let it occur.Likewise, care must be taken not to allow the analog power supply (AV CC, AVRH) and analog input to exceed the digital power supply (V CC) when turning on or off any analog system.2.Handling unused pinsLeaving unused input pins open may cause a malfunction or latch-up which leads to fatal damage to the device.Therefore, they must be pulled up or down through at least 2 kΩ resistance. Also, any unused I/O pin should be left open in the output state, or set to the input state and handled in the same way as an unused input pin.3.Notes on using external clockEven when an external clock is being used, oscillation stabilization wait time is required for a power-on reset or release from sub clock mode or stop mode. Note that 25 MHz is the upper limit on the external clock that can4.Handling power supply pins (V CC/V SS)When multiple VCC and VSS pins supply pins are used, all the power supply pins must be connected to external power and ground lines due to the device design, to reduce latch-up and unwanted radiation, prevent abnormal operation of strobe signals caused by the rise in the ground level and to conform to the total output current rating.Make sure to connect the VCC and VSS pins of this device via lowest impedance to power lines. It is recommended that a bypass capacitor of around 0.1 µF be placed between the VCC and VSS pins near the device.5.Crystal oscillator circuitNoises around X0/X1 or X0A/X1A pins may cause abnormal operations. It is strongly recommended to provide bypass capacitors via shortest distance from X0/X1, X0A/X1A pins, crystal oscillator (or ceramic oscillator) and ground lines and also not to allow the lines of the oscillation circuit to cross the lines of other circuits. This will ensure stable operations of the printed circuit boards. Please ask each crystal maker to evaluate the oscillational characteristics of the crystal and this device.6.Notes on PLL clock mode operationIf an oscillator comes off or clock input stops during PLL clock mode operation, this microcontroller may continue its operation using a free-running frequency from a self-excited oscillation circuit within PLL. This is not a guaranteed operation.207.Power-on and power-off sequence of A/D converter and analog inputTurn on the A/D converters (AV CC, AVRH) and analog inputs (AN0 to AN19) after turning on the digital power supply (V CC) .During power-off, turn off the digital power supply (V CC) after turning off the A/D converters and analog inputs (AN0 to AN19) .In this case, make sure that AVRH does not exceed AV CC during the power-on/power-off procedure.Also make sure that the input voltage does not exceed AV CC when a pin which is also used as an analog input is used as an input port.8.Handling power supply pins on A/D converter-mounted modelsMake sure to achieve "AV CC= AVRH = V CC" and "AV SS= V SS" in connecting the circuits, even when not using the A/D converter function.9.Note on power-upTo prevent the internal regulator from malfunctioning, maintain the voltage rise time at 50 µs (between 0.2V and2.7V) or more during power-up.10.Stabilization of power supplyEven when the V CC power supply voltage is within the specified operating range, it may still cause the device to malfunction, if the power supply changes rapidly. For stabilization reference, it is recommended to control the supply voltage so that V CC ripple variations (P-P values) at commercial frequencies (50/60 Hz) fall below 10% of the standard V CC supply voltage and the coefficient of fluctuation does not exceed 0.1 V/ms at instantaneous power switching.11.Writing to Flash memoryFor serial writing to Flash memory, always make sure that the operating voltage V CC is between 3.13V and 3.6V.For normal writing to Flash memory, always make sure that the operating voltage V CC is between 3.0V and 3.6V.12.P90/CS0 pinsP90/CS0 pins output “L” during writing Flash serial. Do not input from external.13.Note of MB90F883 (S) , MB90F884 (S)•Maximum operating frequency is 25 MHz.•The base timer cannot use P24/TIO0, P25/TIO1, P26/TIO2, and P27/TIO3 as input function.•MB90F883(S) and MB90F884(S) do not contain the flash security feature and write-protect feature.。
Pro-face SP-5B90 eXtreme Box Module数据手册说明书
AUX Output Interface
Alarm output/Buzzer output, Rated voltage 24Vdc, Rated current, 50 mA, Connector 2-piece terminal block (AUX) x1
*1 Amount of memory you can use depends on your screen editing software. For information refer to the manual of your screen editing software. *2 For 1000BASE-T communication, use twisted pair Ethernet cables with a rating of category 5e or higher.
©2020 Pro-face. All rights reserved. Specifications may change without notice.
External Dimensions Easy Maintenance and Modularity
Datasheet
Ordering Information
Cooling Method
Natural air circulation
Weight
0.9kg[1.98lb] or less
External Dimensions
W188 x H131 xD45mm [W7.4 x H5.16 x D1.77 in.]
Warranty
Two (2) years
Note: Box Module environmental specifications follow those of the connected Display Module.
2-PTN 7900产品硬件描述
基于SDH维护特性设计的PTN
PTN = 分组技术 + SDH Operation 体验
统计复用+高性能QOS
Packet technology
L2/L3 Service提供
Future oriented,易扩展
PTN
Packet Transport
Network
SDH Transport
设备保护 交换网:3+1;主控:1+1;风扇2组1+1; 供电 噪音 电源接入2+2/3+3 常温小于72dB 散热能力 4框风扇(每框3个);220W/槽位 走线能力 4个走线槽,每个走线槽出192根光纤(平均16个光 口每单板)
6*线卡
2*PSU
2*PIU
6*线卡
支持机柜 N63B,凸门 类型 环境温度 -5~40℃
控制和管理 模块 ( SCA )
辅助接口与 通信模块 ( EFI )
1 1. 2. 3. 4. 5. 5. 6.
2
3
4
5
6
7
网管级联口 ( 预留 ) 网管网口 时钟测试接口
外时钟输入输出接口 外时间输入 / 输出接口 告警输入接口 告警输出 / 级联接口
Copyright © 2014 Huawei Technologies Co., Ltd. All rights reserved.
Page7
目 录
1. PTN 7900产品定位 2. 机柜和设备概述 3. PTN 790014 Huawei Technologies Co., Ltd. All rights reserved.
Page8
目 录
2. 机柜和设备概述
HP Photosmart 7900 Series 和 HP Photosmart 7700 Ser
© Copyright 2003 Hewlett-Packard Company保留所有權利。
本文件之任何部份,未經 Hewlett-Packard 公司的事先書面同意,皆嚴禁影印、複製或翻譯成其他語言。
本文件中包含的資訊如有變更恕不另行通知。
倘若資料有誤,或因提供、執行、使用本資料而導致任何意外或毀損,Hewlett-Packard 恕不負責。
HP、HP 標誌與 Photosmart 為 Hewlett-Packard 公司之財產。
IBM 為 International Business Machines Corporation 的註冊商標。
Secure Digital 標誌為 SD Association 的商標。
Microsoft 與 Windows 為 Microsoft Corporation 的註冊商標。
CompactFlash、CF 與 CF 標誌為 CompactFlash Association (CFA) 的商標。
Sony Memory Stick 為 Sony Corporation 的註冊商標。
MultiMediaCard 為 Infineon Technologies AG of Germany 的商標,並授權予 MMCA (MultiMediaCard Association)。
SmartMedia 為 Toshiba Corporation 的商標。
xD-Picture Card 是 Fuji Photo Film Co., Ltd.、Toshiba Corporation 與 Olympus Optical Co., Ltd. 的商標。
Mac、Mac 標誌與 Macintosh 為 Apple Computer, Inc. 的註冊商標。
Pentium 為 Intel Corporation 的註冊商標。
其他品牌與其產品為其各自持有者之商標或註冊商標。
印表機中的內嵌軟體有一部份是以 Independent JPEG Group 工作成果為基礎。
RICOH fi-7800 fi-7900 扫描仪文档说明书
Minimieren der WartungszeitWartungen können wertvolle Produktionszeit in Anspruch nehmen. Um sie alsoso effizient wie möglich zu gestalten, haben wir einige neue und verbesserteFunktionen entwickelt. Der Reinigungsmodus schafft Sicherheit, was diekorrekte Reinigung von Glasoberflächen und Rollern betrifft, und erhöht so dieLebensdauer dieser Komponenten. Die Front des Scanners kann weit geöffnetwerden, und das Innere des Scanners wird mit LEDs beleuchtet, was den Zugriffzu Wartungs- bzw. Reinigungszwecken dieser Bereiche beschleunigt underleichtert.Robuste, zuverlässige TechnikDie Scanner fi-7800 und fi-7900 verfügen über metallbeschichtete Papierdurchläufe,deshalb werden keine Reibungsschäden wie bei Harzoberflächen durch Papierverursacht. Die Transportrollen besitzen eine Kugellagerstruktur, welche die Lastausbalanciert, was der Langlebigkeit des Scanners zuträglich ist und die Produktivitätmaximiert.Für Organisationen, die höhere Produktivität beim Scannen großer Mengen benötigen, ist Geschwindigkeit allein nicht der Weisheit letzter Schluss. Das zentrale Kriterium ist der Gesamtdurchsatz insgesamt. Die robusten Modelle fi-7800 und fi-7900 bieten zuverlässige Ergebnisse mit hoher Geschwindigkeit und minimalen Ausfallzeiten, während Ihnen unsere Wartungsfunktionen ermöglichen, die Servicezeit zu verringern. Ein benutzerfreundliches Design sorgt für eine komfortablere Bedienung. Des Weiteren erzeugt unsere branchenführende Imaging-T echnologie eine gleichbleibende Ausgabequalität.Die Modelle fi-7800 und fi-7900 von Ricoh sind eine Scankomplettlösung. Eine Kombination aus marktführendem Scanner, Software und Service bietet Ihnen alles, was Sie für ein produktiveres System und produktivere Mitarbeiter benötigen. So können Sie sich mehr auf Ihr Geschäft und weniger auf Ihre Technologie konzentrieren.Integriertes LCD-Bedienfeldfi-7800 – A4 Querformat mit 300 dpi 110 ppm / 220 ipmfi-7900 – A4 Querformat mit 300 dpi 140 ppm / 280 ipm Scannen von gemischten Stapeln über die Zufuhr mit 500 Blatt FassungsvermögenSoftware ScannerServicesErgonomisches DesignDiese Scanner wurden auf komfortable Bedienung ausgelegt und verfügendeshalb über Steuerelemente an der Vorderseite für schnelle und einfacheScanvorgänge. Die Scanner der Modelle fi-7800 und fi-7900 könnenauch im Sitzen bedient werden, was beim Scannen großer Mengen vonDokumenten Zeit und Mühe spart.Branchenführende PapierführungFür eine verbesserte Effizienz verfügt der Scanner über vielseitigeDokumentenzufuhroptionen und kann so mit verschiedenen Dokumenttypenund -formaten umgehen, von gemischten Stapeln zu verschiedenenPapiertypen, -dicken, -materialien, -größen und -volumen. Das reduziert dieZeit, die für das Aufteilen großer Stapel gebraucht wird. BranchenführenderPapierschutz gewährleistet Qualität, während die verbesserte Steuerungder Papierablage am Ausgang entschleunigt, um alle Dokumente ordentlichaufeinanderzustapeln.Qualität, auf die Sie sich verlassen könnenUnsere Leidenschaft besteht darin, die Leistung zu verbessern undgleichzeitig ein Höchstmaß an Präzision zu gewährleisten. Aus diesemGrund werden unsere Scanner im ProDes Center in Ishikawa, Japan,entwickelt und hergestellt – unserer Drehscheibe für Innovation undDesign. Um diesem Ruf der Zuverlässigkeit und technischen Exzellenzgerecht zu werden, wird jeder Scanner eingehenden Produkttests durchhochqualifiziertes und zertifiziertes Personal unterzogen.Unser ServiceangebotUnser Serviceangebot mit seiner sehr vorhersehbaren Preisgestaltungrundet die Lösung ab. Neben verschiedenen anderen Elementen, z. B.Wartung, Reinigung, Betriebsmittel und Garantie, stellt es auch sicher, dassIhre Scanner immer ihr volles Potenzial ausschöpfen. So können Sie sich umIhr Geschäft kümmern anstatt um Ihre Scanner.Jeglichen Support, den Sie benötigen, erhalten Sie von unseremtechnischen Vertriebsteam, sowie von Vorvertrieb, Evaluierung und Ihremdedizierten Telefonkontakt.Optionales ZubehörPost Imprinter (Vorderseite)(fi-680PRF){Teilenummer – PA03575-D201}Post Imprinter (Rückseite)(fi-680PRB){Teilenummer – PA03575-D203}Die Imprinter-Option ermöglicht dasAufdrucken von alphanumerischenInformationen auf Originaldokumentezur Erleichterung desDokumentenmanagements fürNachverfolgungs- und Konformitätszwecke.Nachdem die Dokumente gescanntwurden, druckt der fi-680PRF (PostImprinter) Informationen auf dieVorderseite von Dokumenten, derfi-680PRB (Post Imprinter) drucktInformationen auf die Rückseite.SoftwarepaketTechnische DatenÜberragende Scanner-Treiber und Dokumenterfassungssoftware von RicohScanner-Treiber mit hochwertiger Bildverbesserung■Kompatibel zu TWAIN- und ISIS-Schnittstellen ■Überragende integrierte Bildverarbeitung ■Patchcode- und Barcode Erkennung■Vordefinierte und benutzerdefinierte Scanprofile für regelmäßige Aufgabenstellungen■Bei Bedarf unterstützt …Assisted Scan“ den Nutzer durch einfache bildliche Auswahl alternativer Scanergebnisse■Automatisches Zuschneiden und Schräglagenkorrektur, Farberkennung und Leerseitenerkennung sowie -löschungEffizientes Frontend und hochwertige Erfassungslösung■Durchgängige Stapel-Erfassungslösung die mittels …One Click Erfassung“ Arbeitsroutinen erleichtert und beschleunigt■Schnelles Scannen großer Mengen mit Bilddarstellung in Echtzeit, Barcodeerkennung und –indexierung■PaperStream IP Verarbeitungs- und Bildverbesserungs-Technologie ist fester Bestandteil von PaperStream Capture und sichert höchste Bildqualität■Scannen-Verifizieren-Indexieren-Validieren in einem einzigen rationalisierten Vorgang - ganz einfach, für jeden Nutzer■Unterstützt ad hoc Scannen und ermöglicht die spontaneAusnahmehandhabung mittels …Assisted Scan“ und, falls nötig, die einzelfallbezogene, spontane Änderungen von Einstellungen2023.5 8040-1.0PFU (EMEA) Limited BelmontBelmont Road Uxbridge, UB8 1HE GroßbritannienPFU (EMEA) Limited Tower 2Mies-van-der-Rohe Straße 880807 München DeutschlandPFU (EMEA) Limited Viale Monza, 25920126 Milano (MI)ItalienPFU (EMEA) LimitedCamino Cerro de los Gamos, 128224 Pozuelo de Alarcón Madrid SpanienTel: +44 (0)20 8573 4444Tel: +49 (0)89 32378 0Tel: +39 02 26294 1Tel: +34 91 7849000Alle Namen, Herstellernamen, Marken- und Produktbezeichnungen unterliegen besonderen Schutzrechten und sind Marken des Herstellers und/oder eingetragene Marken der jeweiligen Eigentümer. Alle Angaben sind unverbindlich. Änderungen der technischen Daten sind ohne vorherige Ankündigung vorbehalten.。
- 1、下载文档前请自行甄别文档内容的完整性,平台不提供额外的编辑、内容补充、找答案等附加服务。
- 2、"仅部分预览"的文档,不可在线预览部分如存在完整性等问题,可反馈申请退款(可完整预览的文档不适用该条件!)。
- 3、如文档侵犯您的权益,请联系客服反馈,我们会尽快为您处理(人工客服工作时间:9:00-18:30)。
Product Specifications Network Features:
Pre-configuration for CDMA2000® EV-DO and UMTS HSPA Auto Failover Between WAN and 3G Wireless Auto Failover Between USB and Module 3G Smart Driver for 3G USB Card DHCP Server DNS Relay Auto-Reconnect Dial On Demand Always On Link Integrity PIN IP Port Forwarding DMZ Support MAC access control NTP DDNS SNMP V1/V2
Interface:
Universal 3G Module for EVDO and HSPA Wi-Fi (802.11b/g) 2 × 10/100Base-T (1 WAN and 1 LAN) 9 -Pin RS232 connector 1 × USB host SIM Slot
Environmental Specifications:
Management: User-friendly Web GUI Remote Central Management Setup Wizard 3G/4G WWAN Session and Status Monitoring Multiple Cellular Network Dial Up Mode 1 year
System Requirements
Broadband (cable, DSL) Internet service and modem with Ethernet connection (Optional) 3G USB Modem (Optional) Ethernet adapter and cable for each computer Windows® 98SE, Me, NT, 2000, XP or other operating systems running a TCP/IP network Internet Explorer 6.0 or Netscape® 4.7 or higher
Security: Industry Leading Firewall Features ¾ NAPT/ Port Forwarding ¾ SPI ¾ MAC Filter ¾ Anti-Attack ¾ URL Filter VPN End Point Feature, ESP/AH, 3DES/DES/MD5/SHA-1 VPN pass-through for IPSec and PPTP WPA 64-bit WEP & 128-bit RC4 encryption Closed system
Package Contents
-
MB7900 Power Adaptor LAN Cable CD (User Guide, Tools, Firmware) Quick Installation Guide
Embedded 3G SDR Module
EV-DO/EV-DO Rev. A 850MHz EV-DO/EV-DO Rev. A 1900 MHz HSDPA/HSUPA 850MHz HSDPA/HSUPA 1900MHz HSDPA/HSUPA 2100MHz GSM/GPRS/EDGE 850MHz GSM/GPRS/EDGE 900MHz GSM/GPRS/EDGE 1800MHz GSM/GPRS/EDGE 1900MHz Standalone GPS (Simultaneous) -
-
Operating Temperature: -20-70 ℃ Storage Temperature: -30-80 ℃ Operating Humidity:10-85% (Non-Condensing)
Physical Specifications:
Warranty:
-
DБайду номын сангаасmension 120 (L) x90 (W) x23 (H) mm Weight 350g
MB7900 Global Router
Com Code: M3211263221 • Universal Hardware/Software Design for CDMA2000® EV‐DO and UMTS HSPA • Plug and Play Simplicity for Network Access • Security Appliances – Firewall, Filter, Anti‐Attack • 3G USB and DSL/Cable Redundancy Auto‐Failover • Compact Design for Travel or System Integration The Global Router MB7900 is the world's first universal 3G cellular embedded system which can serve as a gateway/bridge that links all Third Generation Cellular (3G) networks and LAN networks. This innovative Universal 3G mobile wireless gateway connects any Serial, USB, and LAN devices and sensors to the ubiquitous broadband third generation (3G) cellular network for wireless Internet access with up to 7.2 Mbps peak speed. The MB7900 is software configurable to support all cellular standards including GPRS, EDGE, UMTS, HSDPA, HSUPA, CDMA 1x, EVDO Rev.0 and EVDO Rev.A. The same design, it supports multiple bands including 850Mhz, 900Mhz, 1900Mhz, and 2100Mhz and works with all carriers around the world. This enables enterprise customers to deploy one product with different software configuration and firmware worldwide. Multiple WAN Connections Advanced Auto-Failover Scheme Top Security with Firewall Remote Central Management MB7900 supports wireless group management by Top Global Remote Central Management (RCM) software. RCM provides enterprise class management and administration to configure, monitor, and manage 26784 Vista Terrace Lake Forest, CA 92630 TEL: +1 949 586 7046 FAX: +1 949 380 4128 Top Global 3G router products. RCM can help our customer to reduce network devices maintenance costs. Network administrator can monitor multiple MB7900 from anywhere at any time using any computer with Internet access. There are three WAN options available in MB7900, integrated universal 3G module, 3G USB card and Ethernet WAN. Users can easily choose the preferred network access to be the primary one and the others as back-up. Multiple connections offer the best redundancy with maximum bandwidth and make your network more reliable. When Auto-Failover scheme is active in MB7900, all data traffic will get routed over to back up link while the primary link is down. When the primary data path is restored, the MB7900 will disconnect the back up link and returns to the primary one. There is a powerful firewall integrated in MB7900, which integrates features including Stateful Packet Inspection (SPI), Network Address Translation (NAT), MAC filter, Anti-Attack and URL filter. Those features protect your network against malicious attacks and offer secure access to resources. MB7900 also has built-in VPN end point supporting ESP/AH/ 3DES/DES/MD5/SHA-1 encryption, it gives the Enterprise users maximum security and protection.