《Victoria 4.2》中文图文使用说明教程

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• Nikon Capture 4安装用光盘（CD ）• Nikon Capture 4安装指南• Nikon Capture 4用户手册（本手册）商标信息Macintosh 和Mac OS 是Apple Computer 公司的注册商标。

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目录简介:开始之前 (1)概要:关于本手册 (2)主要功能:Nikon Capture 4中可使用的功能 (3)Nikon Capture 4 Editor (3)Nikon Capture 4 Camera Control (3)系统要求:运行Nikon Capture 4之系统要求 (5)安装 (5)Nikon Capture 4 Editor :图像调整 (7)编辑器窗口:熟悉Nikon Capture 4 Editor (8)启动Nikon Capture 4 Editor (10)退出Nikon Capture 4 Editor (12)打开图像文件 (13)缩小或放大图像 (18)鸟瞰调色板 (19)旋转或翻转图像 (20)选择裁剪区域 (22)信息调色板 (23)直方图调色板 (26)标志调色板 (27)显示对焦区域 (28)图像调整:改善图像 (29)白平衡 (33)高级RAW (39)Image Dust Off (42)暗角控制 (46)曲线 (48)LCH编辑器 (57)颜色增强器 (63)相片效果 (64)色彩平衡 (66)USM锐化 (68)减少千扰功能 (71)D-Lighting (73)Fisheye (镜头在使用DX 10.5 mm鱼眼镜头时的鱼眼至直线图像变换功能) (75)输出尺寸和分辨率 (77)保存和加载图像调整设置 (80)保存图像 (81)打印图像 (86)批处理 (90)Nikon Capture 4 Editor首选项:Nikon Capture 4 Editor的精细调整 (95)一般选项卡 (96)临时文件选项卡 (98)进阶颜色选项卡 (98)网格线选项卡 (99)色彩管理选项卡（Windows用户） (100)色彩管理选项卡（Macintosh用户） (101)Nikon Capture 4 Camera Control:捕获相片 (103)Camera Control窗口:熟悉Nikon Capture 4 Camera Control (104)启动Nikon Capture 4 Camera Control (106)退出Nikon Capture 4 Camera Control (107)将照片储存到磁盘 (108)以原样处理照片 (112)固定间隔定时拍摄照片 (116)Nikon Capture 4 Camera Control窗口 (119)用户设定 (131)Nikon Capture 4 Camera Control 首选项:Nikon Capture 4 Camera Control的精细调整 (133)一般选项卡 (133)临时文件选项卡 (134)色彩管理选项卡 (134)附录:技术性注意事项 (135)附录A:所支持的颜色配置文件 (136)1.Nikon Capture 4支持的标准RGB配置文件 (136)2.Nikon Capture 4支持的RGB配置文件的技术数据 (138)附录B:在Adobe Photoshop（版本7.0或以上）下的颜色匹配 (139)步骤1－选择监视器配置文件 (139)步骤2－在Adobe Photoshop下调整配置文件 (140)附录C:Nikon NEF 插件 (141)附录D:疑难排解 (143)附录 E:词汇表 (145)索引 (151)在安装并使用Nikon Capture 4之前，请阅读本章。

一、调音台操作说明它具备一般扩声调音台所拥有的基本功能，其独立的4编组之功能可使操控更加容易，且为不同的使用环境提供更多的输出线路。

而其话筒增益放大能将输入之讯号放大70分贝，而话筒等效输入噪音在20Hz至20KHz时，能低于-128分贝，从而保证前级信号的质量。

另外，每通道都有低频的50Hz交流声和高频的干扰噪音隔离，保证每通道的质量。

每路均设有4段均衡，每段都能改变增益、Q值和该段的中心频率。

操作简便。

下面就该调音台面板的功能作以下介绍：1)单声道输入部分1、各插口、按钮的功能：a、MIC话筒输入：即话筒插座，其上有三个插孔，分别标有1，2，3。

标号1为接地，与机器机壳相连，把机壳作为0伏电平。

标号2为热端或称高端，它是传送信号的其中一端。

标号3为冷端或称低端，它作为传输信号的另一端。

由于2和3相对1的阻抗相同，并且从输入端看去，阻抗低。

所以，称为低阻抗平衡输入插孔。

它的抗干扰性强，噪声低，一般用于有线话筒的连接。

b、+48V幻像电源开关：用于控制供各给话筒输入端的+48V 直流幻像电源的通断。

按下此键接通幻像电源，跳开此键断开幻像电源。

c、LINE线路输入：它是一种大三芯插座，采用大三芯插头，尖端、环、套筒，作为平衡信号的输入。

也可以采用大二芯插头作为非平衡信号的输入。

其输入阻抗高，一般用于除话筒外的其他声源的输入插孔。

d、DIRECT OUT 直接输出：使用平衡式直插件，直接输出该通道输入的声源信号。

主要用于外接效果器或多声轨录音机。

实际上可看成是调音台的输出通道，只是它输出的信号是对应输入通道的独立信号，而不是混合后的节目信号。

e、INSET 断点输入：它是一种特殊使用的插座，平时其内部处于接能直通状态，当需要使用时，插入尖端大三芯插头，将线路输入或话筒输入的声信号从尖端引出去，经外部设备处理后，再由环把声信号返回调音台，所以，这种插座又称为又出又进插座，有的调音台标成“Send/Return”或“in/out”插座。

Fragstats 4.2简易教程一、使用说明1.数据格式Fragstats能够支持多种数据格式，但4.2以及后续版本将使用Geo TIFF grid 作为主要的数据格式（图1）。

图12.数据命名以及存放路径导入数据的名称和路径不能包含汉字和空格，且存放于二级目录，例如：D:\123\1987.tif3.背景问题背景值默认设置为999，但你完全可以在理解其意义的前提下依照自己喜好进行调整。

简单来说，背景即你分析过程中想要自动忽略的某种地表类型——由于资料缺乏而无法归类、或者你单纯想将其作为背景值处理的地表类型。

值得注意的是，当设定为正值时，背景像元值被视作目标景观内部值；当设定为负值时，背景像元被视作目标景观外部值。

内部背景作为目标景观的一部分不仅会为整个景观面积作出贡献，并且会因此而改变许多指数值；外部背景不会被视作目标景观的一部分，只会对影像边缘的连接性产生影响。

在景观计算中，需要注意背景的影响。

这是景观指数误差中很大的一部分。

比如说，我们拿到的遥感图像，校正好后，边界裁剪后，一般不是规则的矩形。

在边边角角存在没有信息的像元。

图像分类后，没有信息的像元也是作为分类的一种的。

因此，需要对其进行去除。

这个操作可以在Arcgis下操作。

4.下载地址/landeco/research/fragstats/downloads/fragstats_d ownloads.html二、操作步骤2.1打开Fragstats首先，从开始菜单或双击桌面图标打开Fragstats。

如果你的电脑上已安装10.0及以下版本的ArcGIS ，那么Fragstats打开时将有明显延迟（有时长达30s），这是由于Fragstats在验证ArcGIS的使用许可（license）。

请务必保持耐心（图2）。

图22.2新建模型接下来你需要创建一个Fragstats模型用于对斑块的景观结构进行分析。

一个Fragstats模型简单来说就是为Fragstats进行了全副参数化，即为其配备了分析所需的全部参数。

The Victaulic ®Series 755 Manual Release Panel operates as a manually operated actuatingdevice for the FireLock NXT Series 768 Dry Valve and the Series 769 (Deluge and Preaction)Actuated Valves. It contains a special quarter turn ball valve mounted in a painted steel enclo-sure with a full opening door.OPERATION The Victaulic Series 755 Manual Release Panel consists of a special normally closed ball valveattached to a steel enclosure. The enclosure can only be closed when the valve handle is in theclosed position. The valve is attached to the Victaulic Actuated Valve Piston with 1/2" Schedule 40galvanized piping and unions.In order to operate the Manual Release Panel, the door of the release is opened and the ball valvehandle is pulled down. This operation allows water to be released from the piston of the VictaulicActuated Valve. Upon the release of water pressure from the piston assembly the piston rod retractsallowing the clapper to open freely and water to enter the sprinkler system.Following operation, the handle of the ball valve MUST NOT BE RETURNED TO THE CLOSEDPOSITION until the system has been shut, drained and placed back into service.INSTALLATION Deluge Valve listings and approvals may require that an Emergency Release be connected to thevalve in order to manually operate the valve independently of the system release devices. TheEmergency Release (Manual Release Panel) should be mounted in the immediate proximity of thefire safety valve.The location of the Manual Release Panel must be free from any obstructions and allow the door ofthe Manual Release Panel box to open fully.Additional Manual Release Panel stations should be placed near operator stations and other easilyaccessible locations specified by applicable codes, standards and the Authority Having Jurisdiction.When evaluating a location for a Manual Release Panel, easy access to an open drain must be pres-ent. In addition, the Manual Release Panel must be mounted in accordance with the pilot lineheights published in the Victaulic Deluge Valve Installation and Maintenance Manuals.The piping from the valve piston outlet to the Manual Release Panel drain must be no smaller thanSchedule 40, 1/2" to assure proper operation of the Manual Release Panel.The outlet of the emergency release must discharge to an open drain.30.41_1JOB/OWNERCONTRACTOR ENGINEER System No. ______________________________Submitted By ____________________________Spec Sect _______________ Para ___________Location ________________________________Date ___________________________________Approved _______________________________Date ___________________________________VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY. © 2009 VICTAULIC COMPANY. ALL RIGHTS RESERVED.REV_CIt is the owner’s responsibility to maintain the fire protection system in proper operating condition.The Emergency Release must be kept free of freezing conditions, corrosive atmosphere, contami-nated water supply, foreign material or any condition that would impair the operation of the release mechanism or restrict the flow of water from the Emergency Release.The fire safety sprinkler system must be inspected and tested on a regular basis. Basic inspection frequencies are noted in the Installation and Maintenance manuals of the individual valves. The Authority Having Jurisdiction may have additional test requirements which also require compliance.2. Look for any physical damage or corrosion. Repair or replace as necessary.OPERATIONAL TEST1. Notify the Authority Having Jurisdiction and those in the affected area that the test is being performed.2. Close the main water control valve to the sprinkler system.3. Open the door of the Emergency Release and pull the handle of the ball valve down. Water should be freely discharging from the open drain.4. Confirm that the water pressure on the Victaulic Valve piston or diaphragm is 0 psi.5. Close the charge line ball valve on the Victaulic Actuated Valve.6. Close the Emergency Release ball valve. Close the door of the Emergency Release.7. Follow the Placing the Valve In Service Procedure of the Installation and Maintenance Manual for the particular valve being tested.8. Notify the Authority Having Jurisdiction and those in the affected area that the valve is back in service.INSPECTIONS AND TESTFor complete contact information, visit 30.41 2516 REV C UPDATED 1/2009VICTAULIC IS A REGISTERED TRADEMARK OF VICTAULIC COMPANY. © 2009 VICTAULIC COMPANY. ALL RIGHTS RESERVED. 30.41。

Victoria 4.2 中文图文使用说明教程介绍：一款具备硬盘表面检测/硬盘坏道修复/SMART信息察看保存/Cache缓存控制等多功能的工具；工具支持众多型号硬盘解密；支持全系列检测和修复；程序版本：4.2（当前最新测试版）运行平台：windows系列平台版本说明：在4.x版本以前的3.x都是用于DOS平台，并且改进了PRO接口和众多以前在DOS版本无法处理的功能，支持IDE/SATA硬盘，在硬盘密码操作方面；可以备份BIN文件获得察看和修改；支持最新标准ATA-8协议；可以对处理速度做出对比；那么我们首先了解这个程序吧 ^_^下载：Victoria 4.2下载图一：Victoria 4.1程序文件程序中文使用说明：打开程序后显示图一窗口：图二：程序主界面注意: 进入程序后，首先查看状态指示灯DRSC与DRDY是否为蓝色状态；当出现BUSY或者IDNF/ABRT等状况，请重新启动硬盘，硬盘没有就绪则除电源控制等综合通用通能外；修复执行等命令无法进行；图三：Standard界面窗口Standard面板说明：1）红色标注框为主菜单选项按钮；2）蓝色部分为Standard设置窗口3）粉红色为Standard子设置窗口4）黄色部分为公用控制面板5）橘红色部分为硬盘状态指示灯信息面板Standard窗口关键按钮解释：端口/资源选择图四：端口扫描/资源选择（红色框）PORT 端口Custom 自定义Primary 主盘Secondary 从盘端口资源扫描结果显示图五：端口资源扫描结果显示（蓝色框，这里可以直接点击选择）PCI SCAN:扫描SATA/ATA端口；Host protected area ^|hV FM 2RHPA:取得原始LBA；HPA:设置新的LBA；Security manager:Lock:SET PASSWORD 设置密码 ] l +<-Unlock:解锁Erase:清除Master：主控制密码High：高级密码User：用户密码Max：最大长度一：硬盘检测与坏道修复:进入程序如下图：上图中DRSC与DRDY指示灯可以看出，硬盘未准备就绪或者端口没有选择；Standard----port内选择端口；选择待修硬盘端口，选择后如下图显示；DRSC与DRDY指示灯准备就绪；port显示为我们待修硬盘端口；正确选择后，进入TESTS功能窗口；如下图：上图绿色部分设置测试方式；然后选择红色标注部分；测试将会开始；绿色部分设置名词，可以参考本站MHDD说明内术语；使用ERASE/REMAP/Defectoscop这几个功能使用后都可以起到修复缺陷的功能；Trackback: /TrackBack.aspx?PostId=1165238Victoria 4.3硬盘检测软件的使用方法在网上都可以找到，但是都是抄来抄去。

——暨调音台操作入门主要特点：·四编组输出，一组立体声输出；·四段均衡，中间两段可选频；·18dB∕倍频程高通滤波器；·均衡器〔EQ〕旁路开关；·六编组辅助输出〔AUX〕，其中三组可选择衰减器推子前或后输出；·四组哑音编组作分场用途；6×2矩阵输出，提供额外两组独立混音输出；·除话筒及线路输入外四组额外立体声输入；四组立体声效果返回；·每组单声道输入设有独立倒相开关；第一、输入通道部分一、接线端口调音台具有多个输入通道，它们具有相同的功能和特性，而且为单声道输入1、话筒〔MIC〕输入和线路〔LINE〕输入调音台各输入通道上都有一个话筒输入端口和一个线路输入端口，话筒输入端口采用XLR〔卡侬〕插件，可接受各种平衡或不平衡话筒信号；线路输入端采用1／4英寸〔6.35〕直插件，可接受各种平衡或不平衡输出的声源，例如电子乐器或CD 等。

顺便指出，有些调音台的话筒输入端和线路输入端分别表示为Lo—z和Hi—z，即低阻抗输入和高阻抗输入，由于调音台的话筒输入端阻抗比线路输入端阻抗低，因此话筒输入端也称为低阻输入端，线路输入端也称为高阻输入端。

在话筒输入端还有一个+48V直流幻像电源，它是为专业电容话筒提供工作电压的，通过电源开关可控制其通断。

有些调音台的幻像电源开关设置在各输入通道上，它们单独控制各通道，相互间互不影响；还有很多调音台只设置一个总的幻像电源开关，它控制所有通道的话筒输入端所加的幻像电源，当某些话筒输入端〔不一定是全部〕需要接入电容话筒时，就要接通此开关，这时每一路话筒输入端都加有+48V直流电压，以供电容话筒使用，此时并不影响动圈话筒的正常使用。

需要注意的是。

需要注意的是，当幻像电源接通时，话筒输入端不可误接其他有源设备，以免使其损坏。

当然，当系统中不使用电容话筒时，最好将幻象电源切断。

必须指出，由于调音台话筒输入端和线路输入端共用一个通道。

ispLEVER4.2简明中⽂教程（上）Lattice CPLD/FPGA 开发⼯具ispLEVER4.2简明中⽂教程（上）黄俊2005年4⽉概述ispLEVER是Lattice(莱迪思)的数字设计⼯具套件，它⽀持莱迪思所有的FPGA、CPLD、ispGDX和SPLD器件。

ispLEVER包含莱迪思以及CAE业界领先者们所开发的⼯具，⽤于设计输⼊、综合、验证/仿真、适配、布局和布线以及器件编程。

本⽂简要说明了ispLEVER中的各种⼯具的使⽤⽅法，并说明如何查看ispLEVER中的报告。

本⽂共分为三篇。

第⼀篇介绍如何安装ispLEVER；第⼆篇以⼀个简单的4位⽐较器为例介绍开发CPLD的流程，最后还重点介绍了原理图编辑法；第三篇以在EC系列FPGA中实现⼀个简单的RTL级的VHDL设计为实例介绍开发FPGA 的⽅法，并向⽤户展⽰如何对设计进⾏仿真、功耗估算、静态时序分析、布局布线、阅读输出报告。

关于Help⽂件z学习⼀个软件的最佳途径就是学习它的Help，ispLEVER的Help⽂档⾮常详细，不仅有对软件各功能的详细解释还学习指南；z⽤户可以在软件的任何环境下按F1打开Help；z在不同的窗⼝下的菜单栏内点击Help菜单，即可以打开相应的Help⽂件；z为尽快掌握ispLEVER的操作，⽤户也可以联系代理商以安排软件培训。

在这⾥做个⼴告，我们公司——晏阳科技（总公司为彦阳科技）是Lattice的代理商之⼀，我是深圳办事处的⼀名应⽤⼯程师，客户主要在福建和深圳。

我们深圳办事处的总机号码是0755-********，传真是0755-********。

福州联络处的电话是：0591-********系统需求z若开发CPLD，建议内存256M以上，推荐512M；z若开发FPGA，建议内存512M以上，推荐1G；z强烈建议使⽤Windows XP系统。

第⼀篇软件安装1、放⼊安装光盘，ispLEVER Setup会⾃动启动。

安卓4.2.2详细操作方法目前安卓已经更新至4.2.2了，但是没有具体的操作讲解。

我利用手中的nexus4，给大家预了个热。

完全基于原生安卓。

此贴献给将来要升至4.2.2的小白们，可以对其有一个大概了解，咸鱼本人水平，只对常用部分进行讲解。

并考虑平板大多没有通话功能，略去通话及短信部分。

有不对之处请提出批评，我会及时改完再犯。

桌面与程序图标首先是锁屏界面，但是没有隐私功能。

可以从左侧边缘向右滑进入相机，也可以从右向左进入消息界面。

锁屏界面按住屏幕向下拉可以把锁头变小。

点击相应消息按钮他就会占用整页分屏向你推送消息，并且顺序可以调换，不需要的话可以按住推向垃圾桶。

单指从状态栏下拉进入通知栏，处理完的通知可以左右滑动移出。

双指下拉进入快捷设置（两根手指要一样长),右上角图标可以切换。

长按蓝牙和wifi可改变状态，其他要进入设置界面。

从下往上是google now，没开通的是语音搜索。

google now是谷歌新推出的一款重量级应用，网络好的时候几乎是立即回答，显示了与谷歌搜索结合的优势。

即时贴功能是谷歌根据搜集到的你的生活，工作等习惯及时给你提供建议和帮助，代表了未来语音控制的发展方向。

但是说这么好听在大陆好像只支持天气功能，也无法语音对话，现在并不适合使用，不过语音控制科大语点做的也不错啊。

要想试试需要将系统调成英文，然后重新打开google now，按提示一路next。

这是即时贴的一些功能。

我们这里只能使用这些。

不过语音搜索还是不错的。

解锁进入桌面，上方是谷歌搜索栏，不但可以百度，还可以搜索本地程序，但是要联网。

左右滑动可以切换主屏幕。

点击时钟就进入时钟设置，这里集成了沙漏、秒表、闹钟等功能，菜单在右下角。

4.2.2的菜单都在程序的右上或者右下角，标志是三个竖着的点。

桌面长按图标只有删除选项，推向那里就可以。

图标重叠就形成了文件夹，取消文件夹只要把图标移出即可。

另外也可以和底座的图标互换。

想修改文件夹名称只要触摸文件夹名字即可修改。

CANNON® Service Bulletin Technical Note 1607291C AV 4.2 Advanced Setup, Tuning and Troubleshooting GuideIssue: Instrument setup Date: 7/29/2016Instrument(s): C AV 4.2Associated documents: CAV 4.2 Op erator's Manual,Rev 2.0This technical note provides advanced instructions for setting up, tuning and troubleshooting the CANNON® CAV® 4.2 dual-bath kinematic viscometer.It is a supplement to the CAV 4.2 Operator's Manual. Some content, as applicable, may be included in future revisions of the operator's manual. It is constantly being revised, so please visit the CANNON® website for the latest version.Table of contentsOverview (2)Typical setup issues (2)Inspection and setup (2)Solvent and waste line plumbing (2)Thermoelectric cooler and temperature calibration (2)Vacuum and air pressure settings (2)Bath fluid viscosity and level (3)Waste container level (3)ViscPro II setup (3)Tuning (4)Sensor training (4)Sample heaters (4)Optimize thermal soak and bulb overdraw (5)Wash parameters (5)Default settings (6)Plumbing Diagram (de-energized state) (8)Troubleshooting (9)Replacing/resetting the sample handler (9)Spare Parts List (P/N 68.0542) (10)Overview"Tuning" refers to adjusting the settings of the CAV® 4.2 to provide desired results. "Troubleshooting" is required when the CAV 4.2 is not working properly within the given method setting. These terms are not mutually exclusive. The instrument must be running properly before it can be tuned, but some issues may be uncovered when tuning an instrument.Before attempting to tune a CAV® 4.2, you must be familiar with the basic operation of the instrument. This technical note is written for experienced technicians. It provides general guidelines and suggestions, not step-by-step procedures.Typical setup issuesInspection and setupThe CAV® 4.2 must be on a level workbench.Verify that the stirrer pulley and motor pulley are inline. The belt is meant to float up and down on the gear teeth between the side walls of the pulley. If the pulleys are not inline, the belt will wear quickly by be ing drawn against one sidewall of the pulley.Solvent and waste line plumbingDo not tee solvent inlet lines. Each solvent line must run independently from the top of the instrument to the solvent bottle. If a single solvent line is split and run to both inlets, the vacuum pumps may draw against each other when both baths run at the same time.Do not combine vacuum outlet lines. A vacuum outlet line is pressurized during various steps when a bath is running. If these lines are combined, one bath may pressurize the other when both baths run at the same time. Thermoelectric cooler and temperature calibrationCaution:Do not mount a thermoelectric cooler onto a high temperature bath. A hightemperature bath is designed to run a t temperatures above 100 °C, which can damage thecooler even when it is not turned on.Temperature calibration depends on the state of the thermoelectric cooler. If the bath is calibrated at a particular temperature with the thermoelectric cooler turned on, it will need to be recalibrated if the bath is run at that particular temperature with the cooler turned off.Vacuum and air pressure settingsThe vacuum and air pressure settings should be adjusted when the instrument is initially set up, then they should not be changed. Several test parameters, such as s ample overdraw times, bulb select time, and air dry times, depend on these settings.VacuumThe default vacuum setting is between 3 and 4 inches of Hg. The goal is to set the vacuum low enough to draw the sample of highest viscosity up the A-pipe without drawing it too far up the B-pipe. The sample should not be drawn into the B-pipe any further than the bottom of the CANNON logo.Air PressureThe default air pressure setting is between 4 and 5 pounds. If the pressure is too low, the tube viscometer tube will not be cleaned and dried effectively. If the pressure is too high, sample and solvent may be blown out of the sample vial.Bath fluid viscosity and levelThe basic instruction (page 13 of the CAV® 4.2 Operator's Manual) recommends using 10 cSt silicone fluid for temperatures under 100 °C and 20 cSt for temperatures above 100 °C. Thicker bath fluids do not mix well at lower temperatures. You should use the thickest silicone bath fluid that still mixes thoroughly to provide uniform temperatures throughout the length of the bath.Another issue with choosing bath fluid involves thermal expansion. The 10 cSt silicone fluid expands more than the 20 cSt silicone fluid over the same increase in temperature.•At ambient temperature, the bath fluid must lift the float.•At the lowest test temperature, the bath fluid must cover at least 1/2 the top bulb of the viscometer.•At the highest test temperature, the fluid must not overflow the bath.Waste container levelThe waste outlets must be able to freely gravity drain into a waste container. Do not allow the discharge end of waste line to become submerged in the waste container. This will create back pressure and pre vent the unit from operating properly.ViscPro II setupThe two most common issues with ViscPro II:•Establishing communication: ViscPro II must running on the remote computer before instructing the CAV® 4.2 to communicate with it. Toggling the Local/Remote Mode button causes the instrument to send out a ping. If it is able to connect with ViscPro II, the icon turns green.•ViscPro II crashes when attempting to connect to CAV® 4.2: This is typically cause d by a mismatch between the version of ViscPro II on th e remote computer, and the GUI software on the CAV® 4.2. It is always best practice to load the latest ViscPro II software, CAV 4.2 GUI software and CAV 4.2 firmware.TuningSensor trainingSensor training uses the bulb 2Advanced Setting parameters from the default method assigned to the tube being trained. However, it uses the bulb 2 wash parameters from the Default Wash settings.Sample heatersThe CAV® 4.2 has two independent heaters (separate from the thermal bath) that affect the run ning sample. Do not associate these heaters with the thermal soak, which is provided by the thermal bath. They have different purposes.•Sample cup heater (bucket): this heater assists in maintaining the sample temperature during a run and in improving the efficiency of the wash cycle (page 50 of the CAV® 4.2 Operator's Manual). The trick with this heater is to not increase the temperature of the sample between effluxes to a point where the thermalsensors do not detect the sample when it is drawn into the t ube. Thermal sensors detect the sample by measuring an increase in electrical resistance caused by a decrease in temperature when the sample isdrawn up the tube across the thermistor. If the temperature of the sample is higher than the temperature of the bath, the sample will not be detected during a draw.•Sample preheater (extendable crescent): this heater is used to melt samples that are solid or too viscous to pull up the viscometer tube at room temperature, such as waxes, residues, #6.o Minimum preheat starts the preheat cycle as soon as the previous sample begins running and runs for at least the set preheat time. Minimum preheat behaves like serialized preheat for the firstsample in a run.o Serialized preheat starts the preheat cycle after the previous sample finishes and runs for exactly the set preheat time.1Minimum(behaves like serialin first sample run)300 sec100 °C Starts at ambient and begins to warm to 100 °C while the 300seconds is counting down. Heater stays at 100 °C anticipating thenext sample.2Serial 300 sec100 °C Heats for exactly 300 seconds start ing as soon as sample 1 runcompletes.3Minimum 300 sec80 °C Heats as soon as sample 2 run starts and continues heating for aslong as sample 2 runs. If sample 2 run s in fewer than300 seconds,sample 3 will continue to receive preheat for at least 300 secondsbefore run ning. As soon as the sample 3 run starts, the heaterbegins to cool down, since sample 4 does not use preheat.4No preheat* 300 sec100 °C No preheat and since it is turned off, it cools down and does notanticipate the next sample.5Minimum 300 sec100 °C Begins to warm to 100 °C while the 300 seconds is countingdown. Heater stays at 100 °C anticipating the next sample.6Serial* 0100 °C No preheat, but the heater drop at 80 °C anticipating the nextsample.7Serial 300 sec80 °C Heats for exactly 300 seconds starting as soon as sample 6finishes. Heater shuts down when sample is running.*Take note of the difference in behavior between samples 4 and 6. Neither receive preheat, b ut by setting the preheater to s erial with a 0 time for sample 6, the preheater stays onThe most time efficient use of preheating during a full carousel run is to set the heater to the temperature of the bath and apply it using the Minimum Preheat Time setting. This prevents the sample from heating to above the bath temperature, and it preheats while the previous sample is running.The highest degree of preheating control is achieved by using the Serialized Preheat option. The sample will only preheat for the exact amount of time specified.Metal sleeves are availabl e for preheating. They hold a glass vial and conduct the heat from the crescent heater around the sample more uniformly than applying the cresc ent heater directly to the glass vial. Because the metal sleeves are larger than the glass vials, they require a unique carousel, bucket heater, and preheater. Metal sleeves are good for use with paraffin samples. L iquids conduct heat sufficiently to not need a metal sleeve; paraffin does not conduct heat as well and is better treated by applying a uniform heat all the way around the sample. If you need metal sleeves, you will probably also need both internal and external waste line heaters.Optimize thermal soak and bulb overdrawIf the thermal soak is too short, the first efflux will be longer than subsequent effluxes. The simple check to see if your thermal soak is long enough is to increase the soak time and see if it makes a difference.Thermal soaking requires that the sample drawn into the viscometer tube be completely covered by the bath fluid.Ideally, the top bulb should be covered at least halfway by the bath fluid, and the Bulb 2 Overdraw Time should be set to draw the thickest sample halfway into bulb 3. Be careful to ensure that the thinnest samples do not draw above the top of the tube.Wash parametersThe wash settings are where time can be saved, but this may come with degraded performance. Solvent left within the system from a wash can contaminate the next sample. The drying time increases as the bath temperature decreases for a given solvent, i.e. heptane does not dry as quickly at 40 °C as it does at 100 °C. Only wash the B-pipe if a highly viscous sample is drawn into it. If you must wash the B-pipe, use at least 3 or 4 solvent fluses Otherwise, do not flush any solvent through the B-pipe. Instead, check Wash B-Pipe to enable the B-pipe air dry, set all B-Pipe Solvent Washes to zero, and set the B-Pipe Dry Time to 150 seconds.Default settingsTESTWet Tube No —Soak Time Units Seconds —Bulb1 Soak Time150—Bulb2 Soak Time150—Bulb3 Soak Time0— Preheat Type No Preheat — Minimum Preheat Time 0— Preheat Temperature Units Celsius — Preheat Temperature 0.00— WASHBulb1 Solvent A Washes5(range: 5-9)5(range: 5-9) Bulb1 Solvent B Washes00Bulb1 Solvent C Washes00Bulb2 Solvent A Washes5(range: 5-9)5(range: 5-9) Bulb2 Solvent B Washes00Bulb2 Solvent C Washes00Bulb3 Solvent A Washes00Bulb3 Solvent B Washes00Bulb3 Solvent C Washes00 Maximum Solvent A Fill Time120120 Maximum Solvent B Fill Time120120 Maximum Solvent C Fill Time11 Solvent A Injection Time 88 Solvent B Injection Time 00 Solvent C Injection Time 00Cup Empty Time 30(range: 30 – 40)30(range: 30 – 40) Tube Tip Soak Time 88 Solvent Evacuation Time 1010Final Air Dry Time150(range: 60 – 180)150 (range: 60 – 180) Wash B-Pipe Checked CheckedB-Pipe Solvent A Washes 02B-Pipe Solvent B Washes 00B-Pipe Solvent C Washes 00B-Pipe Dry Time150(range: 60 – 180)150 (range: 60 – 180) AdvancedMaximum Bulb 1 Fill Time150— Minimum Bulb 1 Select Time40— Minimum Bulb 2 Fill Time 0— Maximum Bulb Empty Time800—Tube Empty Time 0—Bulb 1 Overdraw Time15—Bulb 2 Overdraw Time3—Bulb 3 Overdraw Time0— Sample Draw Delay5—Bulb 1 Vent Drain Time0—Bulb 2 Vent Drain Time0—Bulb 3 Vent Drain Time0—Drop CriteriaMaximum Determinations3— Required Determinations2— Maximum % Difference0.350— Maximum Efflux Difference0.200—Drop Criteria Mode Use Any Determination —Use Percent Difference Checked —Use Efflux Difference Unchecked —User Either Unchecked —40 °C20%100 °C75%Plumbing Diagram (de-energized state)TroubleshootingVISCPRO II will not connect to the CAV 4.2Start VISCPRO II first, then toggle the Local/RemoteMode button on the CAV 4.2.VISCPRO II crashes when attempting to establish the initial connection to the CAV 4.2Update VISCPRO II. The latest software is available from the CANNON® Website > Library > Downloads: /en/page/240/downloadsErratic flow times Check waste container levelDisable waste line heaterToggle valves, listening for the click of the solenoid "Thin" sample draws into bulb 1Increase the Minimum Bulb 1 Select TimeFirst efflux time is longer than subsequent efflux time Increase the thermal soak timeIncrease the drying timeIncrease the duty cycles of the bucket heaterIncrease the overdraw time to draw the sample into thecenter of the bulb above the upper sensor being used Replacing/resetting the sample handlerThe position of the CAV 4.2 carousel is determined by an optical sensor inside the hub. This differs from the miniAV/PV systems in which the position sensors are part of the carousel. Therefore, it is possible to safely home and reset the sample han dlers with the carousel removed, which is the preferred method.To zero the bucket position on the sample handler:1.Remove the three sheet metal panels around the sample handler assemblies.2.Remove the carousel.3.Slide the tray in.4.Check the position of the bull gear. Tighten the set screw if necessary. The set screw must mate to the flatside of the spindle. The bull gear must be level with the pinion gear. Apply appropriate grease to both spur gears and to the worm gear.5.Gently rotate the bull gear until the bucket is fully lowered.6.Press the reset button on the sample handler assembly.7.From the CAV 4.2 screen, enter the Service > Control Motors screen for the bath being worked on.8.Home the sample handler.9.Raise the bucket and check to see that the tube tip passes through the center of the hole in the bucket.Adjust the position of the sample handler assembly if necessary.10.Lower the bucket. Install the carousel. Home the unit. Raise the bucket. During all of these movements,listen for any impingement. If necessary, TeraTerm may be used to adjust the rotational and horizontal positions of the carousel.Spare Parts List (P/N 68.0542)81.2102FEP Tubing, 6mm OD blue (3 ft)81.2185FEP Tubing, 1/8" OD blue(10ft)62.1500.3Tubing, Nyloseal natural Fre-Lon 1/2" (6 ft) 81.2903Tube, bearing w/ glued shaft81.2227RTD probe assembly68.0439Thermal fuse assembly68.0518Float assembly81.2109Valve, solenoid 3-way Kalrez68.0212Manifold valve, solvent select68.0179Sample handler with preheat68.0251Valve control68.0253Solvent sense68.0289Bath control68.0258Main relay driver68.0240Pump, vacuum68.0531Pump, pressure68.0490Fuse, mini blade 5A (12 fuses)65.3244Fuse, 10A (for 115 V AC MAINS) (2 fuses) 51.2029Fuse, 5A (for 230 V AC MAINS) (2 fuses)81.0008Orifice barbed 5/64" ID tubing (2)68.0309Fitting, male elbow 45 1/2 T x 3/8 MPT Swagel 68.0052Manifold valve, bath assembly68.0075Pulley (3)68.0286Pulley, .08 Pitch (3)68.0287Belt, .08 Pitch (6)。

victoria 用法Victoria 用法Victoria（维多利亚）是一个可以用来构建和训练机器学习模型的Python库。

它提供了丰富的功能和工具，方便开发者进行各种机器学习任务。

下面将介绍几个常见的Victoria用法。

安装首先，你需要使用pip来安装Victoria。

打开终端或命令行窗口，运行以下命令：pip install victoria安装完成后，可以导入Victoria并开始使用它的功能。

创建模型使用Victoria，你可以轻松创建各种类型的机器学习模型。

以下是一些常见的模型类型及其创建方式：线性回归模型from import LinearRegressionmodel = LinearRegression()决策树模型from import DecisionTreeClassifiermodel = DecisionTreeClassifier()支持向量机模型from import SVCmodel = SVC()数据预处理在机器学习任务中，数据预处理是必不可少的一步。

Victoria提供了一些常用的数据预处理方法，下面是几个常见的用法：数据标准化from import StandardScalerscaler = StandardScaler()scaled_data = _transform(data)数据编码from import OneHotEncoderencoder = OneHotEncoder()encoded_data = _transform(data)数据切分from _selection import train_test_splitX_train, X_test, y_train, y_test = train_test_split(X, y, test_size=, random_state=42)模型训练与评估使用Victoria，你可以方便地训练模型并对其性能进行评估。