pronytoolboxprony工具箱汉化版使用说明(1)

目录第一章概述 (2)第二章硬件接口介绍 (3)1. 外观与接口 (3)2. 接口定义 (3)3. 孔位尺寸图 (9)第三章节目编辑与更新 (10)1. TF/U 盘编辑与更新节目 (10)2. 手机APP 编辑与发送节目 (11)第四章系统设置 (13)1. 网络设置 (14)2. 系统模式 (15)3. 高级选项 (15)4. 系统模式 (16)5. Wi-Fi 热点 (17)6. 系统语言 (17)7. 立即播放 (17)8. 重启 (17)9. 网络诊断 (18)10. 关于 (18)第五章 ToolBox功能 (19)第六章组装使用注意事项 (21)第一章概述M10采用瑞芯微RK3188 四核芯片方案，使用Android4.4.4系统。

RK3188 采用ARM 四核A9 内核芯片、GPU 采用Mali-400 系列, 跑分最高达22000多分超强性能，支持主流音视频格式和图片的解码。

双路LVDS 接口，支持1080P 输出，支持HDMI 接口1080P 输出，支持2K 级的视频播放。

支持红外遥控器，Wi-Fi，RJ45 等丰富的接口，让产品变得更加通用，被广泛的应用到广告机、互动一体机、安防、医疗、交通、金融、工控等等智能控制领域。

由于其硬件平台化、Android 智能化的特点，在需要进行人机交互，网络设备交互时，都可以在智能终端主板上进行使用。

产品特点：➢高性能,RK3188芯片采用四核ARM Cortex A9 架构，采用了该芯片的RK3188 主板方案，对比市面常见的单核、双核、四核方案，在性能上有质的飞跃，能够播放各种格式高清视屏，能处理复杂的互动操作；➢高稳定性,M10在硬件、软件上，增加自己独有的技术来保证产品的稳定性，可以使最终产品达到7*24 小时无人值守；➢高集成度,M10集成了以太网、Wi-Fi、功放、TF 扩展卡、USB 扩展口、IR 遥控功能、HDMI、LVDS、背光控制、麦克风等功能，大大简化了整机设计；➢高扩展性,四个扩展USB 口，3路串口+1路可扩展调试串，一个I2C 接口，五个IO 扩展口能扩展更多的外设设备。

数字音频工作站Pro Tools LE教程王磊PRO TOOLS 初级教程说明：本教程只适用于刚刚接触或正要学习PRO TOOLS的同学使用。

今天要给同学说一下在数字音频工作站领域中，最为流行并享有盛誉的音频软件Pro Tools（当然PRO TOOLS的高端产品视频功能也很强大，但我们这里只说音频这方面）。

由Digidesign公司出品的Pro Tools一直是录音行业所推崇的音频处理系统，专业版的TDM系统一般有Pro Tools 24 MIX Plus；Pro Tools 24 MIX；Pro Tools 24等；以及刚刚推出的Pro Tools HD系统。

Pro Tools的软件至今也已升级到6.9的版本。

还有最近出的两个小玩意MBOX和DIGI002。

我们所说的DIGI001系统是这些中最简单的一个，就是由简化版的PRO TOOLS LE软件加上硬件DIGI001组成。

简化版的Pro Tools我们称它为Pro Tools LE，由于绝大多数人都拿不出几十万人民币来购置一套带有硬件DSP功能的Pro Tools 的专业级系统，因此在这里我们就以简化版的Pro Tools 来详细介绍一下，几乎具备TDM系统的大部分重要功能的软件Pro Tools LE与硬件DiGi 001的具体使用。

首先我们先来认识它们：第一节Digi 001这个就是它了，（当然图中少了一块PCI的插卡，因为我没搞到它的图）Digi 001主要由外置接线箱（AD/DA转换器）和PCI插卡组成，中间用电缆连接，是一套真正的“即插即用”系统。

先看前面，在它的前面板上有两个Neutrik复合式（卡侬或大三芯通用）的Mic/LINE前级放大器，有独立的增益控制（GAIN），带有-26db的固定哀减（PAD）按钮，是专门为输入线路信号时使用的。

此外这两个接口还配有48V幻相供电（PHANTOM POWER），可直接接入需48V的电容话筒进行工作。

Proficy Machine Edition软件的使用说明3.1 浏览（Navigator）工具窗口.3.2 属性检查工具窗口 Inspector（属性窗口）列出已选择的对象或组件的属性和当前位置.3.3 在线帮助窗口 Companion（在线帮助）为你的工作提供有用的提示和信息。

3.4 反馈信息工具窗口 Feedback Zone Window (反馈信息窗口)是一个用于显示Machine Edition产品生成的几种类型输出信息的停放窗口。

3.5 数据监视工具窗口 Data Watch Tool （据监视工具）是一个调试工具，让你监视变量的数值。

当在线操作一个对象时他是一个很有用的工具。

据监视工具至少有两个标签：1、Static Tab（静态标签）包含你自己添加到据监视工具中的全部变量。

2、 Auto Tab（自动标签）包含当前在变量表中选择的或与当前选择的梯形逻辑图中的指令相关变量，最多可以有50行。

3、 Watch List Tab（监视表标签）包含当前选择的监视表中的全部变量。

监视表让你创建和保存要监视的变量清单。

你可以定义一个或多个监视表，但是，数据监视工具在一个时刻只能监视一个监视表。

4、数据监视工具中变量的基准地址（也简称为地址）显示在Address栏中，一个地址最多具有8个字符（例如%AQ99999）。

5、数据监视工具中变量的数值显示在Value栏中。

如果要在数据监视工具中添加变量之前改变数值的显示格式，可以使用数据监视属性对话框或右键点击变量。

6、数据监视属性对话框7、若要配置数据监视工具的外部特性，右键点击它并选择Data WatchProperties.3.6 工具箱窗口 Toolchest（工具箱）是功能强大的设计蓝图仓库，你可以把它添加到项目中去。

例如梯形逻辑指令、CFBS（用户功能块）、SFC（程序功能图）指令、和查看脚本关键字。

4.1了解PACsystem RX3i系统的硬件模块表4-1 模块类型说明4.2．运行PME4.3项目的硬件配置新建立的项目的硬件配置一般已包含一部分内容，如一个底板、一个交流电源及一个CPU等，对于PACSystems RX3i系统来说，其底板与模块的连接关系一般如图所示，由于各模块安装的槽位有一定要求，因此在进行硬件配置时需按实际情况对应配置。

DrivePro Body Toolbox 使用手冊目錄1. 支援型號2. 系統需求3. 硬體需求4. 狀態5. 設定裝置設定影片設定影片標記6. 工具7. 檔案管理員8. 智慧辨識9. 網路攝影機10. 無線群組11. 藍芽喚醒12. 偏好13 更多支援1. 支援型號穿戴式攝影機DrivePro Body 70DrivePro Body 60DrivePro Body 30DrivePro Body 52DrivePro Body 20DrivePro Body 10BDrivePro Body 10A2. 系統需求軟體下載DrivePro Body Toolbox 支援以下作業系統：Microsoft Windows 10 或更新版本 (64位元版)macOS 10.14 或更新版本 (採用Intel 晶片的Mac)3. 硬體需求桌上型或筆記型電腦，搭配專屬的傳輸線使用不支援搭載Apple M1晶片桌上型或筆記型電腦"注意"需先安裝Microsoft .Net framework 4.6.1 或更新版本。

4. 狀態在狀態頁面裡會顯示 DrivePro™ Body 的裝置資訊，包含序號、韌體資訊、使用者標籤與產品型號、小組同步功能、儲存空間狀態，和電池狀態。

欲更改使用者標籤和小組同步功能，請點選。

欲尋找裝置，請點選。

欲播放影片及瀏覽照片，請點選。

欲開啟網路攝影機模式，請點選。

欲進行資料備份，請點選。

時間同步：點選此按鈕，將裝置時間與電腦同步。

隱密模式：開啟/結束隱密模式。

隱密模式下，指示燈號及蜂鳴器為關閉狀態。

選項：關閉 / 啟用音訊取樣頻率：設定音訊取樣頻率，頻率越高則音質越佳。

選項：22050 赫茲 / 24000 赫茲 / 32000 赫茲 / 44100 赫茲 / 48000 赫茲還原預設按鈕：同時按壓電源鍵與快照鍵五秒，可將裝置格式化並重置至出廠狀態。

(預設為關閉)解析度：設定錄影影像解析度/畫質。

自己动手汉化软件软件教程•虽然现在国人的软件开发水平越来越高了，但我们的机器里还是有很多外国的软件精品，对于不经常接触外语的朋友们来说，使用这些软件就有一定的困难。

还好一些汉化高手为我们提供了常用英文软件的汉化版和汉化补丁，安装这些补丁后就将其变成了中文版。

唉，还有一些软件，找不到汉化文件，怎么办呢？有了，自己动手汉化吧！智能汉化轻松享成果智能汉化，也就是自动汉化。

这种汉化比较简单，也非常容易操作，整个汉化过程完全由软件自动完成，无需用户干涉。

“金山快译”、“东方快车”等翻译软件都附带了这些汉化功能。

智能汉化的好处是不会对软件进行修改，随时可以转换回英文界面；但是它也存在着一定的缺点，如翻译软件的人工智能较低，遇到一些词性复杂的语句和词组往往会出现词不达意的情况。

不过对一些常用软件（如WinZip、WinRAR、ACDSee等）能进行彻底汉化，效果比较好。

下面就以汉化WinZip为例来展示一下“金山快译”的汉化功能。

1．快速汉化图1首先启动“金山快译2002”，单击桌面右上端工具条上的“永”字图标，即可启动“永久汉化”工具，启动“永久汉化”后，程序自动搜索本地计算机上可以汉化的软件，随后将搜索到的可以汉化的软件显示在“可以汉化软件”列表中（如图1）。

如果列表中没有你需要汉化的软件，单击工具栏中的“添加软件”按钮，添加一个需要汉化的程序。

在该列表中选中需要汉化的英文WinZip程序，单击工具栏中的“汉化软件”按钮，汉化过程开始，并且会弹出一个汉化进度条。

汉化后WinZip程序就显示在下面的“已汉化的软件”列表中了。

下面我们测试一下汉化后的程序吧。

右键单击“已汉化软件”列表中的WinZip，在弹出的快捷菜单中选择“运行”命令，这时我们看到该软件的界面已经变成中文。

如果以后你想将WinZip恢复英文界面，在该快捷菜单中选择“还原”命令即可。

图22．编辑汉化包如果你对“永久汉化”工具自动汉化的中文不太满意，我们还可以用手工编辑汉化包的方法对汉化文件进行编辑修改。

MyBox：简易工具箱用户手册 - 数据工具作者：Mara版本：6.7.1日期：2023-3-13内容目录1 简介 (8)1.1 主菜单 (8)1.2 资源地址 (9)1.3 文档 (10)1.4 工具的菜单 (12)2 二维存储结构的数据 (13)2.1 数据对象 (13)2.2 功能菜单 (14)2.3 定义数据列 (15)2.3.1 数据列的管理界面 (15)2.3.2 列的类型 (16)2.3.3 列的格式 (17)2.3.3.1 数字的格式 (17)2.3.3.2 日期时间/日期的格式 (18)2.3.3.3 纪元的格式 (19)2.3.3.4 定义枚举型 (20)2.3.4 对于非法值的处理 (20)2.4 列的应用 (21)2.4.1 加载数据 (21)2.4.2 显示数据 (21)2.4.3 编辑控件 (22)2.4.4 编辑数据单元 (23)2.4.5 保存数据 (25)2.4.6 计算数据 (25)2.4.7 数据排序 (26)2.4.8 列的颜色 (26)2.5 编辑数据 (27)2.5.1 表格编辑模式 (27)2.5.2 CSV编辑模式 (28)2.5.3 保存与恢复 (29)2.6 查看数据 (30)2.6.1 数据的网页 (30)2.6.2 数据的CSV (31)2.7 定义数据属性 (32)2.8 行表达式 (33)2.8.1 行表达式的作用 (33)2.8.2 编辑行表达式 (33)2.8.3 计算行表达式 (34)2.8.4 示例 (34)2.9 行过滤 (35)2.9.1 行过滤的作用 (35)2.9.2 编辑行过滤 (35)2.10 行分组 (37)2.10.1 分组前后 (37)2.10.2 分组的作用 (37)2.10.3 分组的方式 (37)2.10.4 等值分组 (38)2.10.4.1 分组方式 (38)2.10.4.2 实现原理 (38)2.10.4.3 分组的结果 (39)2.10.5 值范围分组 (40)2.10.5.1 分组方式 (40)2.10.5.2 对于时间/纪元进行分割 (41)2.10.5.3 编辑起止列表 (42)2.10.5.4 实现原理 (43)2.10.5.5 分组的结果 (43)2.10.6 时间分组 (44)2.10.6.1 分组方式 (44)2.10.6.2 实现原理 (44)2.10.6.3 分组的结果 (45)2.10.7 表达式分组 (46)2.10.7.1 分组方式 (46)2.10.7.2 实现原理 (46)2.10.7.3 分组的结果 (47)2.10.8 条件分组 (48)2.10.8.1 分组方式 (48)2.10.8.2 实现原理 (48)2.10.8.3 分组结果 (49)2.10.9 行号分组 (50)2.10.9.1 分组方式 (50)2.10.9.2 实现原理 (50)2.10.9.3 分组的结果 (51)2.11 修改数据 (52)2.11.1 添加行 (53)2.11.2 赋值 (54)2.11.3 删除 (55)2.11.4 设置风格/标识异常值 (56)2.11.4.1 管理风格 (56)2.11.4.2 数据范围 (57)2.11.4.3 定义风格 (58)2.11.4.4 应用风格 (59)2.11.5 粘贴系统粘贴板的内容 (60)2.11.6 粘贴MyBox粘贴板的内容 (61)2.12 整理数据 (62)2.12.1 复制/过滤/查询/转换 (63)2.12.2 排序 (64)2.12.3 转置 (65)2.12.5 分割/分组 (67)2.13 数据计算 (68)2.13.1 行表达式 (69)2.13.2 描述性统计 (70)2.13.3 分组统计 (71)2.13.3.1 计算的选项 (71)2.13.3.2 分组数据 (72)2.13.3.3 统计数据 (72)2.13.3.4 图数据 (73)2.13.3.5 XY图 (74)2.13.3.6 饼状图 (75)2.13.4 简单线性回归 (76)2.13.4.1 实现的基础 (76)2.13.4.2 计算的选项 (76)2.13.4.3 回归 (76)2.13.4.4 模型 (77)2.13.4.5 拟合图 (78)2.13.4.6 残差图 (79)2.13.5 简单线性回归-组合 (80)2.13.6 多重线性回归 (81)2.13.6.1 回归 (81)2.13.6.2 模型 (82)2.13.7 多重线性回归-组合 (83)2.13.8 频数分布 (84)2.13.9 数值百分比 (85)2.14 数据图 (86)2.14.1 XY图 (87)2.14.1.1 数据 (87)2.14.1.2 条图 (88)2.14.1.3 堆叠条图 (88)2.14.1.4 线图 (89)2.14.1.5 散点图 (89)2.14.1.6 气泡图 (90)2.14.1.7 面积图 (91)2.14.1.8 堆叠面积图 (91)2.14.1.9 图数据的参数 (92)2.14.1.10 布局 (93)2.14.1.11 类别轴 (94)2.14.1.12 数值轴 (95)2.14.2 饼图 (96)2.14.3 箱线图 (97)2.14.3.1 计算方式 (97)2.14.3.2 数据选项 (98)2.14.3.3 统计数据 (98)2.14.3.4 图选项 (99)2.14.4.2 数据选项 (100)2.14.4.3 图选项 (100)2.14.5 相比较条图 (102)2.14.5.1 计算方式 (102)2.14.5.2 数据选项 (102)2.14.5.3 图选项 (102)2.14.6 XYZ图 (104)2.14.6.1 三维散点图 (105)2.14.6.2 曲面图 (106)2.14.7 位置分布图 (108)2.14.7.1 数据选项 (108)2.14.7.2 地图数据 (108)2.14.7.3 地图选项 (109)2.14.7.4 播放选项 (110)2.15 分组图 (111)2.15.1 通用处理 (112)2.15.1.1 数据分组 (112)2.15.1.2 分组结果 (113)2.15.1.3 图的显示选项 (114)2.15.1.4 播放选项 (114)2.15.2 分组数据 – XY图 (115)2.15.2.1 图的特定生成选项 (115)2.15.2.2 图的特定显示选项 (115)2.15.3 分组数据 – 饼图 (116)2.15.3.1 图的特定生成选项 (116)2.15.4 分组数据 – 箱线图 (117)2.15.4.1 图的特定生成选项 (117)2.15.4.2 图的特定显示选项 (117)2.15.5 分组数据 – 自比较条图 (118)2.15.5.1 图的特定生成选项 (118)2.15.5.2 图的特定显示选项 (118)2.15.6 分组数据 – 相比较条图 (119)2.15.6.1 图的特定生成选项 (119)2.15.6.2 图的特定显示选项 (119)2.16 输入数据 (120)2.16.1 加载系统粘贴板的内容 (120)2.16.2 导入示例 (121)2.16.2.1 个人数据 (121)2.16.2.2 中国的统计数据 (122)2.16.2.3 回归相关的数据 (123)2.16.2.4 位置数据 (124)2.17 输出数据 (125)2.17.1 导出 (126)2.17.1.1 数据源 (126)2.17.2 转换为数据库表 (128)2.18 管理数据 (129)2.19 拼接数据 (130)2.20 数据文件 (131)2.20.1 CSV文件 (131)2.20.2 文本文件 (132)2.20.3 Excel文件 (133)2.20.4 批量转换/分割数据文件 (134)2.20.5 合并数据文件 (135)2.21 系统粘贴板中数据 (136)2.22 MyBox粘贴板中的数据 (137)2.23 矩阵 (138)2.23.1 管理和编辑矩阵 (138)2.23.2 矩阵的一元计算 (139)2.23.3 矩阵的二元计算 (140)2.24 数据库表 (141)2.24.1 管理数据库表 (141)2.24.2 SQL标识符的限制 (142)2.24.3 数据库SQL (143)2.24.4 SQL查询 (144)3 脚本与表达式 (145)3.1 JShell（Java交互编程工具） (145)3.1.1 关于JShell (145)3.1.2 图形化运行JShell (145)3.2 JEXL（Java表达式语言） (147)3.2.1 关于JEXL (147)3.2.2 图形化运行JEXL (147)3.3 Javascript (149)4 数学函数 (150)4.1 定义函数： (150)4.2 计算函数 (150)4.3 数据集 (152)4.4 一元函数的XY图 (153)4.5 二元函数的XYZ图 (154)5 位置数据 (155)5.1 数据约束 (155)5.1.1 无效值 (155)5.1.2 坐标系统 (155)5.1.3 坐标值 (155)5.1.4 时间 (155)5.1.4.1 时间格式 (155)5.1.4.2 纪元 (155)5.1.4.3 有效的时间示例 (156)5.2 数据操作 (156)5.4 地理编码 (159)5.4.1 数据定义 (159)5.4.2 数据约束 (159)5.4.3 编辑数据 (159)5.4.4 定义条件 (159)5.4.5 导入数据 (159)5.4.5.1 内置的预定义数据 (159)5.4.5.2 CSV格式 (159)5.4.5.3 来自的位置数据: (160)5.4.6 设置 (160)5.5 地图上的位置 (161)5.6 位置工具 (162)6 其它 (163)6.1 编码条码 (163)6.2 解码条码 (163)6.3 消息摘要 (163)6.4 编码/解码Base64 (163)6.5 从ttc文件中提取ttf文件 (163)1 简介这是利用JavaFx开发的图形化桌面应用，目标是提供简单易用的功能。

基于Web Service的3G手机应用《小小翻译》用户操作手册拟制人：***审核人：***批准人：***2010年09月02日济南职业学院小小鸟团队用户操作手册目录重要声明............................................................................................................................................. 客户忠告............................................................................................................................................. 小小鸟队联系方式.............................................................................................................................1. 概述...............................................................................................................................................1.1 编写目的.............................................................................................................................1.2 背景.....................................................................................................................................1.3 定义.....................................................................................................................................1.4 软件开发参考书籍.............................................................................................................2.软件概述.........................................................................................................................................2.1代码结构..............................................................................................................................2.2运行说明..............................................................................................................................3.运行环境.........................................................................................................................................3.1硬设备..................................................................................................................................4.安装信息.........................................................................................................................................4.1 用户安装说明..................................................................................................................... 5．其他信息.......................................................................................................................................5.1 加载程序.............................................................................................................................5.2 异常情况处理.....................................................................................................................重要声明感谢你使用由济南职业学院小小鸟团队开发的基于Web Service的3G手机应用《小小翻译》软件。

Contents1Introduction31.1Main Applications (3)2Operation42.1Ratio (5)2.2Overshoot (5)2.3Recovery (6)2.4Rise Time (6)2.5Deadband (7)2.6Threshold (7)2.7Level Control and Overdrive (8)2.7.1Overdrive Processing (8)2.7.2Loudness Enhancement (8)3Description of Controls94Specifications114.1Pro Tools | HDX– Instances per chip (11)5Preset Manager Toolbar12 6Supported Platforms13 7System Requirements13 8Copyright and Acknowledgements141INTRODUCTION 1IntroductionThe Sonnox Oxford TransMod is an application that allows the dynamic level of signals to be modified,over time,by transients in the programme material.The effect is to bring transient events in the programme forward,or push them to the background,such that the attack of instruments can be accentuated or softened depending on the settings provided.The application was developed to address a common situation where there is a need to selectively tighten up percussive instruments or soften the unwanted percussive effects of acoustic musical instruments.Such effects are easily achieved with the TransMod because its purpose designed adaptive processing acts on differential information in the programme,so that the overall long-term programme level is minimally affected,and sensitivity to control parameters is drastically reduced.1.1Main Applications•Radically change the dynamics of instruments•Accentuate or flatten attacks and transients•Bring sounds forward or push them back•Increase or reduce the effects of ambience•Produce rounded and dynamic percussive effects•Harden up and give life to dull or flat-sounding recordings and mixes,without the unwanted changes in overall timbre associated with multi-band compressiontechniques•Increase overall modulation potential by the reduction of very short peaks2OPERATION 2OperationThe Sonnox TransMod functions by producing a continuous value that is proportional to the dynamic level encountered at its input (ie.the programme level envelope).This value is then subjected to processing that extracts the rate of change of the programme level envelope,which is used to modify the forward gain of the output signal during periods of dynamic activity in the programme.In this way the resulting level envelope at the output of the TransMod can be modified dramatically to accentuate or attenuate aspects of the dynamic profile of the sound,whilst drawing from the natural characteristics of the original programme signal.2.1Ratio2OPERATION 2.1RatioThe ratio value represents the lineardB ratio by which the output gain will be modifiedby instantaneous changes in the input level.Positive values will increase the gain of the signalduring transients.So,for example,when the ratiocontrol is set at +1,a drum ‘thwack’ that has a peakof 10dB above the average level will produce a levelincrease of twice that (20dB)at the output,becausethe gain during the transient will be increasedby the same amount as its level difference.For negative ratios the reverse is true,and for a negative ratio of -1 the drum attack transient would be reduced to the corresponding average level of the signal,and will therefore be removed.With the ratio control in its central position (0),the TransMod process does not affect the signal at all.2.2OvershootThe overshoot time sets the period over which the dynamic changes occur,depending on the input programme dynamics.A short overshoot period will enhance (or reduce) transients for a very short time and cause only the leading edges of the transients to be modified.For example,a small overshoot time can accentuate short-term events in the programme for small percussion instruments such as bells,whilst largely ignoring large and softer transients from instruments such a drums etc.Increasing the overshoot period allows transient enhancement to occur over longer periods,therefore providing a method to tune the action to suit the programme material and produce the required effect.The adaptive nature of the processing,over both level and time,allows optimal settings of the timing value to be achieved for complete tracks and even complex final mixes. Because the TransMod process is so rapid,low settings may not be heard because the duration of the transients being affected are too short.Generally the most audible effects occur from the mid position of the overshoot control upwards.2.3Recovery2OPERATION 2.3RecoveryThe recovery control modifies the long-term timingof the envelope processing.Small recovery valueswill allow action to almost each and every transient,even if they repeated very rapidly in the programmematerial.Longer recovery values will gentlyand progressively reduce the action depending onthe rate at which transients occur in the programme.So,for example,setting a long recovery value canprevent excessive action on small rapid transientsin the signal (ie.hi-hat spill),which directly followlarge transients (ie.a bass or snare drum).The recovery time is adaptive such that after a period of absence for large transients,small transients in quieter sections of the programme will be progressively included once more into the process,in the normal way. The effects of changing the recovery are usually quite subtle,and for the most part small to midrange settings will work best for most typical material.2.4Rise TimeThe rise time value modifies the response of the envelope detector to fast transients and provides a method to decrease the sensitivity of the process to short term events in the programme.With the control set at minimum,all transients,however short,will be processed.Increasing the rise time value reduces the overall speed of the envelope detector,such that short-term transients will be progressively ignored as they fall beneath the value of the rise time setting.This control can be used to prevent unwanted action from fast,largely inaudible transients, or it can be used as a sound effect.For example,a rise time value can be set such that the initial attack of an instrument is excluded during an overall transient reduction or increase. This allows you to ‘model’ the sound of the overshoot to soften or harden the effect.2.5Deadband2OPERATION 2.5DeadbandThe deadband value provides a method to excludeless significant transient modifications from thefinal processing output.For example,if a deadbandof 3dB is set,changes resulting from the TransModprocessing below a total differential gain changeof 3dB are excluded from the process,and thesignal is unaffected under these conditions.The deadband control can be used to preventaction from small level changes or insignificanttransients,which may otherwise adversely affectthe programme.In this case,it is best to start with the deadband set to zero and increase it only if unwanted action becomes evident,particularly during quiet sustained passages.The deadband control may also be used to produce dramatic effects by focussing the TransMod action on only the loudest transients in the programme.In this case,it’s best to set low thresholds and high ratios to get the maximum action,before progressively increasing the deadband to exclude smaller events from the effect.2.6ThresholdThe threshold control causes the process to operate only on programme material above the set level,ignoring all signals below that value.Unlike all the other TransMod processing,the threshold is related to absolute input levels,and therefore care must be taken to set a low enough threshold value to allow action on the required range of programme.Careful threshold setting may be used to focus only on the louder events in the programme.This may be particularly useful when aiming for compression sounds with negative ratio settings.To generate increased attack with positive ratios,the TransMod process works most effectively when operating on the majority of the programme range, i.e.the lower the threshold the greater the possible effect may be.Note:Care must be taken with very low threshold settings since programme material starting2.7Level Control and Overdrive2OPERATION from silence may produce a large initial overshoot.2.7Level Control and OverdriveAlthough the TransMod process works to maintain constant average signal levels in the programme,the process can produce significantly larger peak levels if positive ratio values are used.With highly percussive sounds and long overshoot settings,the peak levels can potentially increase up to +24dB greater than in the original programme.This effect will be seen on the peak meters provided in the output section of the plug-in.Since most workstation applications provide no headroom above the peak level operating target that most users aim for,the extra transient information provided by the TransMod is highly susceptible to clipping in the application environment.If this occurs,the transients are lost forever and cannot be recovered in the mix by level control further down line (ie. your mix faders etc.).Therefore care must be taken to set appropriate gain settings to avoid clipping.2.7.1Overdrive ProcessingThe overdrive process is included to allow a degree of relief from premature clipping if high modulation levels are required,by providing a method for the harmonic content of peak information above digital max to be included in the final output of the TransMod process.When set to maximum (100%) the overdrive process will allow peak information up to 6dB greater than max to be included without the sound of hard clipping,whilst avoiding digital overloads entirely.Overdrive processing will also change the harmonic content of the programme to provide warmth and richness to many programme types.2.7.2Loudness EnhancementWhen used with negative ratios,the TransMod can provide an efficient method to increase the loudness of programme by reducing very short transients that may otherwise cause overloads.In many cases,very short transients may not be a prominent part of the programme sound,and can be reduced without damaging the sonic character of the results.If very short-term peaks are reduced,more modulation gain can be achieved without overloads.Since the look-ahead process timing can act on the signal before itappears at the output of the plug-in,short-term peaks can be effectively reduced without apparent loss of overall sonic character.To achieve this effectively,very small overshoot and recovery values should be used with a minimum rise time setting,in order to catch the fastest transients only.A negative ratio coupled with a suitable dead band setting can be obtained that reduces transients by the required amount,allowing the overall level of the programme to be increased before limiting occurs.Note:Since the TransMod is an adaptive process that constantly changes witprogramme content,the peak limiting function will not be as predictable and accurate as that provided by a programme limit.3Description of ControlsNote that the parameter settings provide continuous feedback of settings values,and have type-in fields so you can change values directly from your keyboard.Input SectionINPUT meterDisplays Input drive levels.GAINProvides adjustment of gain from –24 to +24dB.THRESHOLDAdjusts the level threshold for the onset of processing.DEADBANDControls the range of transient programme change that is ignored by the TransMod process,from 0dB to 6dB.Effect SectionRATIOControls the overall effect of the TransMod process.Positive settings producetransient enhancement and negative settings cause reduction.EFFECT meterabove the IN button Displays the peak overall gain and loss of transients in theprogramme material resulting from the TransMod process between + 24dB and-24dB.IN button Switches effect in and out,maintaining constant delay and gain forcomparison purposes.OVERSHOOTControls the timing profile of the transient modification.Output SectionRECOVERYControls the response of the TransMod process to long-term programme levelchanges,from 3 to 200mS.OVERDRIVEProvides additional harmonic and overload enhancement effects to the TransMod output signal,from 0% to 100%.RISE TIMEControls the response speed of the TransMod process to short duration envelope transients,from 100µS to 30mS.4SPECIFICATIONSOUTPUT meterDisplays output drive levels.Output SectionClicking the Sonnox button produces a drop-down options menu.4Specifications4.1Pro Tools | HDX– Instances per chip48 kHz96 kHz192 kHzMono1573Stereo14635PRESET MANAGER TOOLBAR 5Preset Manager ToolbarThe Oxford TransMod plug-in comes equipped with its own onboard Preset Manager, which is displayed as a toolbar at the top of the plug-in window,just as if the host created it (see above).The reasoning behind this is to allow increased portability of your presets across all the host applications,while also providing a consistent and versatile interface. Although most host platforms allow the creation and loading of presets,thosehost-created preset files are not portable between different host applications.With the Oxford plug-ins’ preset manager,you can create a named preset in one host application and load it when using an alternative application.The Preset Manager ToolBar is enabled via the Sonnox button Options Menu (see Description of Controls).The Sonnox Preset Manager is fully described in a companion document —Sonnox Toolbar and Preset Manager Operation Manual— available for download on the Support Documentation page of .7SYSTEM REQUIREMENTS 6Supported Platforms•Avid Pro Tools (AAX Native and DSP32/64-bit)•VST hosts (32/64-bit)•AU hosts (32/64-bit)•Mac Intel OSX10.6 or higher•Windows 7 and 8 (32/64-bit)7System RequirementsFor latest System requirements,please visit .All versions•Free iLok account•Appropriate product licence•iLok2Pro Tools•Approved Digidesign/Avid CPU and hardware configuration•Pro Tools 10.3.5 (Native or HD), or higherVST Native•VST compliant host application (e.g.Cubase,Nuendo,etc.)Audio Units•Approved Apple CPU and OSX10.6 or higher•Audio Unit Host application (e.g.Logic,Digital Performer,etc.)8COPYRIGHT AND ACKNOWLEDGEMENTS 8Copyright and AcknowledgementsTrademarks and content copyright©2007-present Sonnox®Ltd.All rights reserved.Sonnox®and the five dots logo are registered trademarks of Sonnox Ltd.This product is manufactured and supplied by Sonnox Ltd.This product is protected by one or more European and/or US patents.DIGIDESIGN, AVID and PRO TOOLS are trademarks or registered trademarks of Avid Technology Inc.VST is a trademark of Steinberg AG.All other product and Company names are trademarks or registered trademarks of their respective holders.。