MAGIC2103-ARM7开发板II用户手册_v1.00

Rev. 0.5 1/21Copyright © 2021 by Silicon LaboratoriesCP2103-EK1. Kit ContentsThe CP2103 Evaluation Kit contains the following items:⏹ CP2103 Evaluation Board ⏹ RS232 Serial Cable ⏹ USB Cable ⏹ Quick Start Guide2. Relevant DocumentationApplication notes can be found on the Interface Application Notes page for all fixed-function devices:/interface-appnotes .⏹ AN721: USBXpress™ Device Configuration and Programming Guide — Customize the VID, PID,serial number, and other parameters stored in the CP2103 EPROM.⏹ AN197: Serial Communications Guide for CP210x — Programming guide for using the Virtual COM Port (VCP) drivers.⏹ AN169: USBXpress® Programmer's Guide — Programming guide for using the USBXpress drivers.⏹ AN220: USB Driver Customization — VCP or USBXpress driver customization tool.⏹ AN223: Runtime GPIO Control for CP210x — Programming guide and DLL for runtime control of the CP2103 GPIO pins.⏹ AN571: CP210x Virtual COM Port Interface — USB interface details for CP210x devices.3. Software SetupThe software packages and documentation for the CP2103 kit can be found on the device page (https:///interface/usb-bridges/classic/device.cp2103) and include the following:⏹ CP210x Drivers (Software & Tools Tab)⏹ USBXpress Host SDK (Software & Tools Tab)⏹ Documentation: (Tech Docs Tab)● CP2103 data sheet● CP2103 evaluation kit user's guide (this document)3.1. USBXpress Driver Development KitThe Silicon Laboratories USBXpress ® Development Kit provides a complete host software solution for interfacing to CP210x devices. No USB protocol or host device driver expertise is required. Instead, a simple, high-level Application Program Interface (API) for the host software is used to provide complete USB connectivity. The USBXpress Development Kit includes Windows device drivers, Windows device driver installer, host interface function library (host API) provided in the form of a Windows Dynamic Link Library (DLL). See Application Note AN169,“USBXpress® Programmer's Guide” for detailed information on using the USBXpress drivers.The USBXpress drivers are available here: https:///developers/direct-access-drivers .Click the USBXpress Development Kit link in the Downloads section to download the USBXpress drivers. Run the installer and follow the steps to install the software to the desired location. The default installation directory is C:\SiliconLabs\MCU\USBXpress_SDK .Further installation instructions for the WinCE drivers can be found in the ReadMe.txt file contained inside the driver package.CP2103-EK4. CP2103 Hardware InterfaceThe evaluation board is connected to a PC as shown in Figure 1.1.Connect one end of the USB cable to a USB Port on the PC.2.Connect the other end of the USB cable to the USB connector on the CP2103 evaluation board.3.Connect one end of the RS232 serial cable to the DB-9 connector on the CP2103 evaluation board .4.Connect the other end of the RS232 serial cable to the target serial device.Figure 1.Hardware SetupCP2103 EKSerial DeviceCP2103 USB-to-UART Bridge1234CP2103-EK5. CP2103 Software InterfaceIf the Virtual COM Port drivers are used, the CP2103 will appear as a COM port in the Device Manager, as shown in Figure 2. The CP2103 will always use the lowest available COM port for operation. For instance, if COM ports 1and 2 are in use by other peripherals and applications, the CP2103 will use COM 3.The CP2103 functions identically to a COM port from the reference point of both the host application and the serial device, and it can support serial device control requests defined in the Microsoft Win32® Communications API.Examples for how to communicate with the device as a serial COM port are includedin AN197 on the /interface-appnotes page or in the USBXpress Host SDK.If the USBXpress drivers are used, the CP2103 will appear as a USB USBXpress device as shown in Figure 2.Examples for how to communicate with the device using the USBXpress interface are included in AN169 on the /interface-appnotes page.Figure 2.CP2103 in Device ManagerCP2103-EK6. Target BoardThe CP2103 Evaluation Kit includes an evaluation board with a CP2103 device pre-installed for evaluation and pre-liminary software development. Numerous input/output (I/O) connections are provided to facilitate prototyping using the evaluation board. Refer to Figure3 for the locations of the various I/O connectors.J1DB9 connector for RS232 interfaceJ2UART signal access connectorJ3USB connector for USB interfaceJ4, J7Power ConnectorJ5, J6GPIO Access ConnectorD0–D3Green GPIO LEDsD4Red SUSPEND indicator LEDFigure3.CP2103 Evaluation Board6.1. LED Headers (J5, J6)Connectors J5 and J6 are provided to allow access to the GPIO pins on the CP2103. Place shorting blocks on J5 and J6 to connect the GPIO pins to the four green LEDs D0 - D3. These LEDs can be used to indicate active communications through the CP2103. Table1 shows the LED corresponding to each header position.Table 1. J5 and J6 LED LocationsLED PinsD0J5[3:4]D1J5[1:2]D2J6[3:4]D3J6[1:2]6.2. Universal Serial Bus (USB) Interface (J3)A Universal Serial Bus (USB) connector (J3) is provided to facilitate connections to the USB interface on the CP2103. See Table2 for the USB pin definitions.Table 2. USB Connector Pin DescriptionsPin #Description1VBUS2D-3D+4GND (Ground)CP2103-EK6.3. UART Signals (J1, J2)A RS232 transceiver circuit and DB-9 connector (J1) are provided on the evaluation board to connect the CP2103virtual serial port to external serial devices. See Table 3 for the RS232 J1 pin descriptions. The J2 connector is pro-vided to facilitate direct access to the CP2103’s UART signals. Shorting blocks on J2 are required to connect the UART signals to J1. See Table 4 for J2 pin descriptions.6.4. Power Connectors (J4, J7)Two headers, J4 and J7, are included on the evaluation board to provide several power options. The following describes the function of each connector:⏹ J4 - Connects the CP2103 VDD (pin 6) to the main +3 V net that powers the other components (4 greenLEDs and RS-232 Sipex Part) on the board.⏹ J7 - Connects CP2103 VIO input (pin 5) to the main +3 V net. Remove the shorting block to power VIO from an external source.Table 3. RS232 Pin DescriptionsPinSignalCP2103 DirectionDescription1DCD Input Data Carrier Detect 2RXD Input Receive Data 3TXD Output Transmit Data 4DTR Output Data Terminal Ready5GND Ground 6DSR Input Data Set Ready 7RTS Output Request to Send 8CTS Input Clear to Send 9RIInputRing IndicatorTable 4. J2 Pin DescriptionsPinsSignalCP2103 DirectionDescription1-2TXD Output Transmit Data 3-4RXD Input Receive Data 5-6DTR Output Data Terminal Ready7-8RI Input Ring Indicator 8-10DCD Input Data Carrier Detect 11-12DSR Input Data Set Ready 13-14CTS Input Clear to Send 15-16RTSOutputRequest to SendCP2103-EK7. SchematicF i g u r e 4.C P 2103 E v a l u a t i o n B o a r d S c h e m a t i cCP2103-EKD OCUMENT C HANGE L ISTRevision 0.1 to Revision 0.2⏹Updated CD-ROM contents in Section “1. KitContents” to correspond with versions 4.0 and later of the CP210x Drivers and Product Information CD-ROM.⏹Updated Section “3. Software Setup” to include installation instructions for software included on versions 4.0 and later of the CP210x Drivers and Product Information CD-ROM.⏹Added installation instructions for USBXpress Driver Development Kit in Section “3. Software Setup”.⏹Added screenshots in Section “5. CP2103 Software Interface”, for the Device Manager window after correct installation of driver software.Revision 0.2 to Revision 0.3⏹Updated "3. Software Setup" on page 1.Revision 0.3 to Revision 0.4⏹Updated “1. Kit Contents” to change CD-ROM to DVD.⏹Added “2. Relevant Documentation”.⏹Updated “3. Software Setup” to point to the drivers on the website.⏹Updated Figure 1 and Figure 2.Revision 0.4 to Revision 0.5⏹Updated "Kit Contents" on page 1 to remove DVD.⏹Updated "Relevant Documentation" on page 1.⏹Updated "Software Setup" on page 1.IoT Portfolio/IoTSW/HW/simplicityQuality/qualitySupport & Community/communitySilicon Laboratories Inc.400 West Cesar Chavez Austin, TX 78701USADisclaimerSilicon Labs intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Labs products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and “Typical” parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Labs reserves the right to make changes without further notice to the product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Without prior notification, Silicon Labs may update product firmware during the manufacturing process for security or reliability reasons. Such changes will not alter the specifications or the performance of the product. Silicon Labs shall have no liability for the consequences of use of the information supplied in this document. This document does not imply or expressly grant any license to design or fabricate any integrated circuits. The products are not designed or authorized to be used within any FDA Class III devices, applications for which FDA premarket approval is required, or Life Support Systems without the specific written consent of Silicon Labs. A “Life Support System” is any product or system intended to support or sustain life and/or health, which, if it fails, can be reasonably expected to result in significant personal injury or death. Silicon Labs products are not designed or authorized for military applications. Silicon Labs products shall under no circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, ormissiles capable of delivering such weapons. Silicon Labs disclaims all express and implied warranties and shall not be responsible or liable for any injuries or damages related to use of a Silicon Labs product in such unauthorized applications.Trademark InformationSilicon Laboratories Inc.®, Silicon Laboratories®, Silicon Labs®, SiLabs® and the Silicon Labs logo®, Bluegiga®, Bluegiga Logo®, ClockBuilder®, CMEMS®, DSPLL®, EFM®, EFM32®, EFR, Ember®, Energy Micro, Energy Micro logo and combinations thereof, “the world’s most energy friendly microcontrollers”, Ember®, EZLink®, EZRadio®, EZRadioPRO®, Gecko®, Gecko OS, Gecko OS Studio, ISOmodem®, Precision32®, ProSLIC®, Simplicity Studio®, SiPHY®, Telegesis, the Telegesis Logo®, USBXpress®, Zentri, the Zentri logo and Zentri DMS, Z-Wave®, and others are trademarks or registered trademarks of Silicon Labs. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is a registered trademark of ARM Limited. Wi-Fi is a registered trademark of the Wi-Fi Alliance. All other products or brand names mentioned herein are trademarks of their respective holders.。

MY-TFT070V2 产品用户手册版本V1.12015年3月16日版本记录目录目录 (1)第1章产品概述 (2)1.1 产品简介 (2)1.2 规格参数 (2)1.3 产品预览 (3)第2章硬件指南 (5)2.1 引脚分布 (5)2.2 信号定义 (5)2.3 电气特性 (6)2.4 时序参数 (7)第3章机械参数 (10)附录 (12)附录一联系方式 (13)附录二售后服务与技术支持 (14)第1章产品概述1.1 产品简介MY-TFT070V2是深圳米尔科技有限公司推出的7寸液晶模块，是彩色有源矩阵薄膜晶体管（TFT）液晶显示器（LCD），由TFT LCD显示器件，连接件，控制与驱动外围电路，PCB驱动底板等组成，驱动底板预留1.27mm间距的IDC排线插针(25pinX2）和0.5mm 间距的FPC连接器两种连接方式，是专为米尔科技ARM主板设计的配套LCD液晶显示模块。

1.2 产品特性MY-TFT070V2兼容三种触摸输入方式，分别为电阻式触摸输入、电容式触摸输入和外置式输入，可以根据需要任意选用需要的方式，同时只能有一种触摸方式被连接。

图1-1MY-TFT070V2带有一颗存储芯片，用来保存LCD的一些常规信息，MYiR的开发板系统能够版识别MY-TFT070V2，并根据这些信息来加载相应的驱动。

1.3 规格参数1.4 产品预览MY-TFT070V2 产品平面图如图1-2、图1-3所示：图1-2 MY-TFT070V2产品正面图图1-3 MY-TFT070V2 产品背面图第2章硬件指南2.1 接口分布底板接口分布如下图2-1所示：图2-1 底板接口分布图如上图所示，驱动底板预留1.27mm间距的50pin IDC排线插针(J1）和0.5mm间距的50pin FPC连接器（J2）两种连接方式，默认连接50pin IDC排线。

J4为电阻触摸信号连接，J5，J7分别为电容触摸控制信号连接，默认选择J5电容触摸模式。

飞凌S5PV210开发板硬件使用手册OK210‐A 硬件手册‐v1.0?第 0 页?OK210‐A 硬件手册‐v1.0?注意事项与维护?产品使用环境?工作温度：‐10°to +60℃ 工作湿度：10% to 95%?一般注意事项?牢记以下几条会减少您的维修费用！?本产品核心板金手指严禁用手或油污物接触，这样做会造成核心板与底板接触不良！！！不能带电插拔核心板！请保持本产品干燥。

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第 2 页?OK210‐A 硬件手册‐v1.0?版本说明?日期 2013.3.17 版本 v1.0 新文件导入更新内容鸣谢?第 3 页?OK210‐A 硬件手册‐v1.0?技术支持与更新?技术支持说明?技术支持范围：开发板软、硬件资源；判断开发板是否存在故障；如何烧写和更新系统；如何测试和运行开发板提供的程序。

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版本变更记录目录1. 特性 (1)2. 描述 (1)3. 应用领域 (1)4. 引脚 (2)4.1 引脚定义 (2)4.2 引脚描述 (2)5. 结构框图 (3)6. 典型应用电路 (3)7. 电气特性 (4)7.1 极限参数 (4)7.2 典型参数 (5)7.3 开关时间特性 (6)8. 应用设计 (6)8.1 Vcc端电源电压 (6)8.2 输入逻辑信号要求和输出驱动器特性 (6)8.3 自举电路 (8)9. 封装尺寸 (9)9.1 SOP8封装尺寸 (9)EG2103芯片数据手册V1.01. 特性⏹高端悬浮自举电源设计，耐压可达600V⏹适应5V、3.3V输入电压⏹最高频率支持500KHZ⏹VCC和VB端电源带欠压保护⏹低端VCC电压范围10V-20V⏹输出电流能力I O+/- 0.3 A/0.6A⏹内建死区控制电路⏹HIN输入通道高电平有效，控制高端HO输出⏹LIN输入通道低电平有效，控制低端LO输出⏹外围器件少⏹封装形式：SOP-82. 描述EG2103是一款高性价比的MOS管、IGBT管栅极驱动专用芯片，内部集成了逻辑信号输入处理电路、欠压保护电路、电平位移电路、脉冲滤波电路及输出驱动电路，专用于无刷电机控制器、电源DC-DC中的驱动电路。

EG2103高端的工作电压可达600V，低端Vcc的电源电压范围宽10V～20V。

该芯片输入通道HIN内建了一个200K下拉电阻，LIN内建了一个200K下拉电阻,在输入悬空时使上、下功率MOS管处于关闭状态,输出电流能力I O+/- 0.3/0.6A，采用SOP8封装。

3. 应用领域⏹移动电源高压快充开关电源⏹无线充电驱动器变频水泵控制器⏹DC-DC电源⏹无刷电机驱动器4. 引脚4.1 引脚定义LIN图4-1. EG2103管脚定义4.2 引脚描述5. 结构框图LOGNDVCCHOVS VB图5-1. EG2103内部电路图6. 典型应用电路+15V+600VOUT图6-1. EG2103典型应用电路图7. 电气特性7.1 极限参数注：超出所列的极限参数可能导致芯片内部永久性损坏，在极限的条件长时间运行会影响芯片的可靠性。

1300 Henley CourtPullman, WA 99163509.334.6306CoolRunner-II™ Starter Board Reference ManualRevised April 8, 2016This manual applies to the CoolRunner-II rev. FOverviewThe CoolRunner-II Starter Board is a complete USB-powered circuit development platform for Xilinx's CoolRunner-II CPLD. The board includes highly-efficient power supplies, a programmable oscillator, several I/O devices, and a USB2 port for board power and CPLD programming. The board also includes five expansion connectors that make 64 CPLD signals available to external circuits.Features include:∙ A 256-macrocell CoolRunner-II CPLD in a TQ-144 package∙An on-board USB2 port for board power, JTAGprogramming, and data transfers∙An 8MHz fixed-frequency oscillator and asocket for a crystal oscillator∙Expansion connectors for 64 I/O signals (32 onthe Pmod ports and 32 on the parallelconnector)∙ a one-wire DS28E01Q EEPROMThe CoolRunner-II Starter Board.A large collection of board-support IP, reference designs, and add-on peripheral module boards (Pmods) is available at .External Power ConnectorUSBJTAG Header 1ConfigurationThe CoolRunner-II board's CPLD must be configured (or programmed) by the user before it can perform any functions. Files can be created from schematics or HDL source files using the free ISE WebPack software from Xilinx. Configuration files can be transferred to the CoolRunner-II board using a USB cable and Xilinx's iMPACT software or using an external programming cable (not included). Once configured, the CPLD retains its state indefinitely. When the CoolRunner-II board is powered on, the most recently loaded CPLD configuration is available immediately. A new configuration can be loaded at any time, and as soon as a new configuration is loaded, it defines the CPLD's behavior.2 Power SuppliesThe CoolRunner-II board can be powered from its integral USB port or from an external supply attached atconnector JP3. Jumper JP2 selects whether the board uses USB power or external power. External power, from any source, is routed through a Maxim LT3028 regulator to produce the two voltage supplies (3.3V I/O and 1.8V core) required by the CPLD. Whenever board power is applied, the power-on LED glows.To use an external power source, set jumper JP2 to BAT and apply power to the JP3 pins (see the board's silkscreen for orientation). Any 4.5V to 9V power supply can be used (for example, a transistor battery or a series arrangement of AA cells).The CoolRunner-II board uses a four-layer PCB, with the inner layers dedicated to V CC and GND. The Maxim regulators, together with good power supply routing and ample bypass capacitors on all IC pins, results in a low-noise power supply.3 ClocksThe CoolRunner-II board includes a fixed-frequency oscillator that produces an 8MHz clock signal. This primary oscillator output, labeled PCLK in the schematic, is connected to the GCLK2 pin of the CPLD (at P38) so that it can be routed to the internal clock divider. An unloaded socket for a standard half-size DIP oscillator is also provided at location IC3.4 User I/OThe CoolRunner-II board provides two pushbuttons and two slide switches for inputs, and four red LEDs and a four-digit LED display for outputs.The active-low pushbuttons and slide switches include series resistance for short-circuit protection. The LEDs are active low, and the seven-segment display uses decoupled-transistor active-high common anode signals and active-low cathodes.Three additional LEDs indicate USB power good (LD4), board power good (LD5), and USB link status (LD6).5 Expansion ConnectorsThe CoolRunner-II board provides four 12-pin peripheral module ports. Each port provides two V DD and GND connections and eight unique CPLD signals. Each port can accommodate a single 12-pin Pmod or two 6-pin Pmods.Digilent makes several 6-pin Pmods that can attach to these ports, including speaker boards, H-bridge boards, sensor boards, etc. See for more information.The CoolRunner-II board also provides a 40-pin expansion connector that includes three power-supply signals and 37 individual I/O signals.6 Demonstration DesignThe design pre-programmed onto the CPLD contains several functions that can be seen when the appropriate peripheral modules are inserted into the relevant ports.In this sample design, the switch Pmod goes in port J8, the PS/2 Pmod goes in port J7, and the seven-segment display Pmod goes in ports J5 and J6. Of course, the design can be changed to use different ports.The CPLD implements both a counter as well as a PS/2 keyboard decoder. The display switches between the two based on the value of SW4. SW1, 2, and 3 are not used in the design. BTN0 is the system reset for the design.When SW4 has the PS/2 decoder selected, the output on the display is the scan code for that letter. Here are some scan codes, the rest can be found on the Internet.7 Design Recommendations∙The regulator provides Vccio of 3.3V, so set the Default I/O Standard appropriately.∙Unused I/O should be set to Ground to minimize power.∙Input Termination should be set to Keeper to minimize power consumption on any potentially floating input pins.。

AG-MX70AMC数字特级切换台使用说明书∫POWERAVAG-MC2MX-Navi PC ABAG-MX70A...................................................................3 (6) (6)[Audio Effects][PAN] [EQ] [EQ Mid] [Voice] [Mute] (49)...................................................... 49 .....................................................50 ................................... 50 .................................................50 (50)≥ ABAB (14)≥GPI RS-422A/RS-232C GPI (17).......................................................... 17 RS-422A ....................................................................... 17 4 9 16 AG-VE70 RS-232C .. (17)Tally (17)≥/ 3D[Setup][Mode] [Direct Pattern] [Audio Video Input] [Memory] [Gen Lock] [Video Format] [System1] [System2] [Bus] [Audio Fader] [Audio Level] [File] [RS232C] 1 2 (51)............................... 52 ................. 54 .............................................55 ........................ 55 ................................ 55 ............................................55 ............................................ 56 .......................................................56 .............................. 56 ...................................57 ........................................................57 (57)...................................................... 18 ≥ ≥DVE DSK...................................................... 20 .. (20)[INTVideo] [Color Effects] [Video Effects]100........................ 20 ........... 23 ........... 24 . (31)≥ ≥ 1 (30)[Transition] [Chroma Key] [Luminance Key] [Title Key] [Basic Pattern Key] .............................. 31 ..................................... 34 [EXT Key] ..36 ..................... 38 ............................................37 (39) (58)....................................................................58 ........................................................................58 (59)DSK/ (46).................................... 46 ..........................................47 ...................................................... 47 ..........................47 ................................. 48 (48)..........................................................60 (68)[DSK Source] DSK [DSK Key] DSK [Crop] [DSK On/Off] DSK [DSK Effects] DSK [Fade]≥ Microsoft Windows Microsoft Corporation ≥ Dyna mic Rounding Quantel, Ltd. DR Quantel Ltd.34MX-Navi (73)........................................................................73 (73) (85)...................................................... 85 . (85)ON POWER X /Y Pb / PrMX-Navi.................................................. 73 .. (74)................................................................74 (74).................................................. 85 ...........................................87 ........................................... 87 ................................................................87 .........................................................88 ................................................................88 ................................................................88 ................................................................ 88 . (88)1OFF ASPECT Z2 3HOLD SCENE CENTER GRABBERHVDSK......................................................................74 ........................................................................74 .............................................................74 (75)EDITORONPATTERN9 1 POWERSetup Power Reset [Demo] [Enter] Preset8 7 6 5 4 5 CENTERON (76)AG-MX70A USB ...........................................................76 .................................................... 76 Windows 98 Windows 2000 ................... 76 Windows ME (77)Windows XP ................................................ 77 MX-Navi ................................................................78 (78) (89)AG-MX70A AG-MX70A .....................................89 ........................................ 89 ...........................................89 ......................................................... 90 ................................90 ........................................................................90 ........................................................................90 ................................................................91 (92)6 HOLDON ON OFF XY X Y UV X/Y V Z2 7 ASPECT (79)MX-Navi ........................................................ 79 MX-Navi .. (79)H (79)...........................................................................79 ................................................................79 (81)...................................................... 93 ..................................................95 (96)Y3ZZ8ONON OFF (82)........................................................................82 ........................................................................82 ........................................................................83 ........................................................................83 ........................................................................84 ........................................................................84 (84)4 SCENE GRABBERON9 EDITORRS-422A RS-422A<>OFFON561 2 3PATTERNREV ONE WAY DSK EFFECTS1 2PREVIEWME PRV A PROG A PROG5 7 9 ;EFFECTS8 B/PRESET/STROBEB/PRESET B/PRESET87 6LUMCHRMEXTP in P4 5 8 CHRMDSKB PRESET B PRESETSTILLSTROBEVIDEO EFFECTSCOLOR EFFECTSLCD [Video Effects] /MIXMIX EFFECT3 46 8 : <<>Shift1 REV/ αDSK PREVIEWA/B9 A/PROG/VIDEO EFFECTSLCD Shift [Video Effects] A/PROG A/PROG A/PROG ON/OFF 1 ME PRV 2 ONE WAYAB ME LCD2 A/PROGA/PROG: B/PRESETShift/VIDEO EFFECTS[Video Effects] B/PRESET A/PROG ON/OFF3 DSK EFFECTSDSK ME DSK OFF ON Diss ON 3D-DVE3 B/PRESETB/PRESET DSKLCD; A/PROGShift [Color Effects] A/PROG A/PROG ON/OFF4 DSK< >DSK DSK Effects DSK ON DSK-Effects DSK DSK LCD <>PROG PRESET< B/PRESETShift LCD/COLOR EFFECTS[Color Effects] B/PRESET B/PRESET ON/OFF4SETUP<>5SETUP5 A/PROG/STILLLCD A/PROG A/PROG6 MIX7 LUM6 B/PRESET/STILLLCD B/PRESET B/PRESET7 A/PROG/STROBEA/PROG A/PROG[Video Effects] LCD782 5 2 5 1 4 8 9 ; = <SET UP INT VIDEO DSK FADE AUDIO EFFECTS1 3P a t t e r n F I N TP O S . E V E N TX 1 1 9Y 1 0 7 Z 2 3 5 M ET i m e F P a t t e r n I N T3 7 6 :P O S . E V E N TX 1 1 9Y 1 0 7 Z 2 3 5 M ET i m e00 02:00 2101 WhtE T r a n s i t i o n M o d i f y P a t t e r n E d g e E f f e c t s Of f H a r d L igh t O n7 6 :4 8 9 ; = <00 02:00 2101 WhtE T r a n s i t i o n M o d i f y P a t t e r n E d g e E f f e c t s O f f H a r d L i g h t O nCONTRASTCONTRASTA @ A LCD CONTRASTLCDA @SET UPINT VIDEODSK FADEAUDIO EFFECTSBC D E > D DSK FADE DSK/DSK/B 1 LCD 2C D E > 91 2 3 4 5B SETUPC INT VIDEOE AUDIO EFFECTSZX/Y/Z Pb/Pr/Y: ;1 2 3 4 53 4 5ME DSK FADEEVENTAUDIOEFFECTS ON1 EVENT RECALL 3 42 EVENT SET3 AUDIO EFFECTS ON < = > ? @11 2RECALLSETFOLLOW2ON6 7 8344 AUDIO FOLLOW ME ON DSK/ ON OFF 59101PHONE2TIME71OFF9ON ON OFF1 246A / PROG8:MIX EFFECTS<=FADEMINMAX4DSK FADE3PATTERNME6 8 95 8 –SHIFT SOURCE 1 / 5 SOURCE 2 / 6 SOURCE 3 / 7 SOURCE 4 / 8 INT/EXT AUTO TAKE DSK 7 4 1TITLE PLAY8 5 2INT PLAY9 6 3 CANCELON OFF ON OFF B / PRESET71 3 1 Shiftshift ON OFF579;>.SHIFT: ; < = 1 PHONEPHONE DSK/ Prog9 +ON OFF9 B/PRESET/SOURCE 4/8B/PRESET shift 8 42 A/PROG/SOURCE 1/5A/PROG shift 5 1: A/PROG/INT/EXTA/PROG INT shift EXT 1:0Shift3 B/PRESET/SOURCE 1/5B/PRESET shift 5; B/PRESET/INT/EXTB/PRESET INT shift EXT2 TIMEME DSK FADE;[2][.][5]> shift 2 54 A/PROG/SOURCE 2/6A/PROG 2 6 shift3 PATTERNON/OFF<2 65 B/PRESET/SOURCE 2/6 < ShiftB/PRESET shift4 ME MEME //ON OFF= FADE[DSK/ ]6 A/PROG/SOURCE 3/7 = Enter A/PROG shift ? shift 7 3> AUTO TAKEME5 DSK DSKON DSK OFFLCD7 B/PRESET/SOURCE 3/7B/PRESET shift 7 36 FADEON FADE OFF8 A/PROG/SOURCE 4/8A/PROG shift 8 4DSK[DSK/ ] DSK DSK1112SOURCE 1 / 5SOURCE 2 / 6SOURCE 3 / 7SOURCE 4 / 8AUX 1MIC / AUX 2MASTERMAX5 AUX 1AUX11 2 3 4KEY Y EXT IN P B P R5 6 7 8 9SDI IN1 IN2 IN3 IN4 OUT5G/L8 9 :1 AUX IN2 L AUDIO OUT 2 L MAX6 MIC/AUX 2(AUX1 MIC/AUX2)MIC PHONE USB ADV-REF PREVIEWGPI R EDITOR R7 MASTERAudio Effects ONMIN MINEXT IN1DSK1 2 3 4 6 7 1 MICMIC AUX2<>1345672≥ ≥2 PHONE YEXT DSK Y DSK/FADE DSK1 SOURCE 1/52 SOURCE 2/63 SOURCE 3/74 SOURCE 4/8 3 USB 4 ADV-REF5 G/LG/L EXTKEY3EXTPBDSK PB4EXTPRDSK PR< < >1 [FOLLOW] [FOLLOW] [Master] Audio Effects ON 8 AB1>≥ ≥/ MIC/AUX2 L1AUX1LR (SDI SDI5 IN16 IN27 IN38 IN46 PREVIEW7 GPIME 3 DSK561/5 1 5 1 2 L R L 6 A/PROG A/B A 2/6 2 L R R AUX1 L ( AUX2/MIC)AUX1 R AUX2/MIC)3/7 3 7 L R L 8 B/PRESET A/B B4/8 4 L R R B/PRESET A/B B9 OUTAG-YA708 AUX IN 9 AUX IN : AUX IN 2 L1L 2LR RA/PROG A/B ALRLRRPROG/PRESET PROG PRESET 12 12 2 1 1 1 L L R L L PROG/PRESET PROG PRESET 2 1 L R R R R PROG/PRESET PRESET PROG L LPROG/PRESET PRESET PROG R R2L213141 2 3Y/V P /V5 B P R YC45 6 7VIDEO IN Y/V P /V6 B P R YC8LRLRAUDIO IN LRLRLAUDIO OUT 1 R12341 Y/V P /V7 B P R YC Y/V 3 P /V8 B P R YC 21 1 3 123 44 449 : ; 1 2 3 4 YC 5 6 7 8 YC / 6/ PR 2 / 5/ PR 1 Y PB 2 2 2 Y PB 1 1 1<= > ? 9 : ; < YC = > ? @ YC / 8/ PR 4 / 7/ PR 3AUDIO IN@ Y PB 3 Y PB 4 4 43225331 123 4V Y P B P R YCOEDITOR RS422 SIGNAL GND RS232C2 3 51 TALLY5VIDEO OUT4~AC IN2 AUDIO OUT 1 R1 V Y P B P R YC2 AUD19RS-422A RS-232C4 TALLY1 2 3 4 5 6 7 86 7 8 9 1 2 3 4 5 YC Y PB PR 1 1 1 1 1 6 7 8 9: 2 Y PB PR 2 2 2 22 RS-422A/RS-232CRS-422A RS-232C AG-MX70A( 3.5 V)3 SIGNAL GNDTALLY ( 50 mA) LED: YC5 AC IN1516GPI RS-422A/RS-232 9 Tally∫ RS-232CAUX1 ≥ AUX211CPST Y, Pb, Pr KEY ADV-REF SDI∫ GPIGPI / DSK GPI FadeRS-232C 25 1 3 4 5 6 7 20 TXD RXD RTS CTS DSR SIG.G DTR AG-MX70A 9 1 2 3 4 5 6 9 SPARE RXD TXD DTR SIG.G DSR SPARE [DCE CONNECTION]∫ RS-422AAG-A850 ≥ ± ± ± ± ± 1 6 INT EXT RS-422A/RS-232C AG-A850AG-MX70AY, Pb, PrSDISDI IN2 SDI OUT SDI IN3 SDI IN49<≥ ≥>RS-422A RS-232C3 3D 1GPISetup 56 1SDI / MIC USB≥ 1) 2) 3) RS-422A/RS-232C 422A AG-A850 RS-Frame Dly 1 1 ≥ DVE2PCMX-Navi∫ Tally5 4 9 89 9223 72 615 94 83 72 61CPST Y, Pb, Pr1 123456789 FRAME GROUND TRANSMIT A RECEIVE B RECEIVE COMMON SPARE TRANSMIT COMMON TRANSMIT BRECEIVE A FRAME GROUND 2 3 4 5 6 7 8 9 81 2 3 4 5 6 7 EXT GNDSDI IN2 SDI SDI IN3 SDI IN4 SDI KEY Y, Pb, Pr ADV-REFG/LAG-MX70ASDI OUTMIC SDI /USBPCMX-Navi17183[Setup] [Power] [Demo] [Setup] [Power] [Preset] [Reset] [Preset] [Reset] [Setup] [Enter]RS-422A SDI /G/L *2 RS-422A SDI / SDI IN 1 SDI IN 2 SDI IN 3 SDI / SDI IN 4 SDI OUT ADV REF *1RS-422AAG-MX70ARS-422A≥ ≥ ≥ ≥ 7 ≥ ≥ [Shift] + [Enter]XYZ12SDI /AUX1/AUX2USBCD PC *1 ADF REF 56 *2 Setup StillOff AG-A850 ADV REF G/L MX-Navi[INTVideo]Pb 128 Pr 128 Y 1280010:00301580 255 1 01 21R1 R2 R31R4 R5LCD XYZ ZINTVideoINT1[Back Matte][Color Bar][Memory]1920[INTVideo][Back Matte] XY [X][Y] [Custom2] Z [Z] 2 [Wash] [Pb] [Pr] [Y] 0 255 10 Green Black 2 1 White Megenta Custom1 wash 2 [Pb][Pr] 16R1[INTVideo][Memory] [Still] NTSC [Movie] PAL Prog Setup[Custom1] [Y]R3 R4 R513026255R22 Yellow Cyan Red Blue Custom23 [Custom1] [Back Matte]4 [Off] : [H1] : [H2] : [H3] : [V1] : [V2] : [V3] : [Diag1] : [Diag2] :5 ≥ 0 5 2 3 1 Prog Enter 3 2 Write 1=1R1 R2 R3 R4 R51255 0 - 2551 0 - 255Y [Custom2] [Wash] [Pattern]2 91 1 - 30/26 (NTSC/PAL)1 1 - 30/26 (NTSC/PAL)1 2 3 1 2 3 1 2 [Grade] 0 255121 2 3 1 2 3 1 2>1 ≥ 5 2 4 4 [Preview] [Field] 3 [Repeat] 3 [Enter] 2 5 0 0 - 255 Shift + . BackMatte INTVideo Memory Grade Exit Enter Matte INTVideo CustomColor [Frame] [Once]R1 R2 R3 R4 R51 1 - 30/26 (NTSC/PAL)5 1 - 30/26 (NTSC/PAL)[Shift] +[Custom1 2]R1 R2 R3 R4 R53 [BackM] [Wash] [Set BackM] XY Z Matte [Set Wash] Wash [Custom1] 1 [Custom2] 2111 2 3 1 2 3 1 2Memory<>[Mode] [Exit] [Enter]2122[Color Effects]Pb 128 Pr 128 0[Video Effects]X 128 Y 128 Z 1280010:0030150010:003015ch A XYch AY YR5 [Color Effects]Pb 0R2 R3Pr 128R4R11281 1610[Shift] A B 1 2 Z XYZ[Color Effects] A B [Color Effects] A [ Color Effects] B Y [– 128 127] 0 dB=0 Y [– 128 X Pb 3 5 Pb/Pr/C 200 211 215 220 222 MIX 560 127] Y 0 Pr 4 Pb Pr4 YBPreset<≥>A 221 /B / 222 1068 1069 B ON INT EXT A [Shift] B MIX 563D 0R1 R2 R3 R416R51≥[Video Effects] [Video Effects] [Mosaic] [Nega][Video Effects] A B [Defocus] [Mirror] [Mono] [3D] 3D [Time Effects] [Off]1 [Ripple] [Decay] [Multi] [Paint] [Spark]<>INT EXT2324[Video Effects][Mosaic] 2 [Off] 3 [Y] 4 8 1001 201 202 1002 1 003 200 0 31 [XY] [X] X Y XY [On] [Off]R1 R2 R3 R4 R5[Video Effects][Time Effects] [Video Effects ON] / 2R1 R2 R3 R4 R5XY 0 - 318 1 @4 @9 @16 R4 R9 R16R5110 2 - 124[Defocus] 2 [Off] 3 2 0 7 1004 2 203 2 0-7 ≥ [Still] 3R1 R2 R3[On][Off]R1R2R3R4≥[Off]R1R2R3R4R5R4R5<>[Mosaic] [Defocus][Field] [Field][Frame][Mono] 2 [Off] [Color Effects] [On] [Off]R1 R2 R3 R4 R5≥ 1[Strobe] 4R1R2R3R4R51 2 2 R4 [Shift] 1063 1064 R16 124 1 @4 @9 @16 R4 R9 R16 10 2 - 1245 20 @4 @16 [Strobe] 1062 218 21065215216217<≥>≥ ≥1541 1550 32 35 130 133 141 1601 2617 3303 3314 3324 3501 3378 4601 6716142VHS()2526[Video Effects][Decay] A 2 3 16 0 B [On] 32 DSK [Off] 0 - 32R1 R2 R3 R4 R5[Video Effects][3D] 2 [Multi] AG-VE70 3D [Off] [Spark] [Off] [Ripple] 3D 3D 0 - 255 32 0 - 255 64 0-5 1R1 R2 R3 R4 R5163D1066 219 [Paint] 2 3 4 1034 211 0 [On] 7 0-7 [Off]R1 R2 R3 R4 R5≥[Ripple] 3 [Level] 32 4 5 0 64 0 1 XY 255 5 [Time] [Width] 0 - 255 3D 32 0 - 255 64 0-5 1R1 R2 R3 R4 R54255[Nega] 2 3 Y [Off]R1 R2 R3 R4 R51981 ≥ [Multi] 3 4 0 15 8 0 255 16 [Reverse] [Size] 3D [Pitch] [On] [Off] 1983 0 - 15 8 0 - 255 16R1 R2 R3 R4 R5Y[Mirror] 2 V [Off] ≥ 3 HR1 R2 R3 R4 R55 [Off][Spark] 3 0 32 1 2 5 0 255 255 [Time] 1982 255 3 [Width] 3D [Size] 0 - 255 32 1-3 2 255 0 - 255R1 R2 R3 R4 R5<> ——42728[Video Effects]<≥ ≥>200 A 211 1001 B 1034 213 220 222 1060 1067 MIX 56 A B [Ripple] [Multi] [Spark] 1069 3D B *1 DVEAB1) A 2) 2) B1533 1333 1498 3303 3623 2999 6999 28 31 36 42 128 129 43 46 51 54 138 140 143 182 **** **** 3321 3323 3401 2Dcomp Slide 2Dcomp/Move 2Dcomp Key Bounce keys Transition patterns Key patterns1) A B ME Preview ME Preview A*13D ? 1501 ? 1301 ? 1401 ? 3301 ? 3601 ? 1601 ? 460134783) 2999 LCD LCD 4) ME Take 5) B A 2 A B Take ME Auto Auto4) LCD 3) 3000DSK1) Prog/Preset 2) AB 3) AB 4) Execution AB 2 3) 3 4 DSK/Fade DSK DSK DSK OFF DSK DSK/Fade DSK/ ME Preview 2) 1) DSK DSK ON DSKDSK ON1) DSK/Fade 2) FADE FADE DSK/2930DVEPlus 3DLCD Reset[Pattern Edge]R1 R2 R3 R4 R5[Transition]1 2999<>200 MIX 56 X 128 Y 128 Z 196 222 1001 1004 1021 1023 1030 0134 1059 1069 1981 19832 [Hard] [Soft] [Border] [Soft Border] [Hard] [Soft] [Soft Border] 2001 2195 6008 6010 Border] #701 707 24 801 814 183 196 3 1 255 [Width] 32 [Width] 1 2 ≥ 701 196 707 24 27 801 81432 1 - 255 [Soft 2718310:0000131 24 [Yellow] [Magenta] [Custom1] Custom1[Color] [White] [Cyan] [Green] [Red] [Blue] [Black] 1 [Custom2] 2 1 Custom2 2< 32>BR1R2R3R4R5[Modify] 2 [Multi] [Off] [Comp] [Blinds] [Off] [Slide]R1 R2 R3 R4 R53 [Comp] [Slide] [Multi]...... [Single] ........ [Single] ..... [H3] [HV6] 6 3[Both] [Both] [V3] 3 6 [Pair] [HV3 Pair] [HV6 Pair] [HV3] 3 6 3 [H6] [H3 Pair] 3 [H6 Pair] 6 6 [V6] 6 [V3 Pair] 3 [V6 Pair] [Blinds]......3132[Effects] DVE 2 [Trail] 3D 5 (AG-VE70) [Light] [Off] [Shadow] R1 R2 R3 R4 R5[Chroma Key]Preview X 128 Y 128 Z 196 ME300≥ [Shadow] [Shadow] [Shift]R1 R2 R3 R4 R510:001 =--1 1 1283101=--1 128 128 8 3 8 2 12 7 12255=---6≥[Trail] [Self] [BodM] 4 1 32 [Shift] DSK A/B video Effect [BodM16 1 - 32R1 R2 R3 R4 R5A 6A3 [Self-spark] spark]3D A/B6301 3D— 26R1 R2<>—R3 R4R5[Key] 2 X [Enter] [Shift]+[ 3 0 0 255 225 4 15 5 [K Level] 0 [Slope] ] [Slice]R1 R2 R3 R4 R5Y 1 1-31 128 0 - 2551 8 0 - 15 255 0 - 2553334[Color cancel]R1 R2 R3 R4 R5[Luminance Key]0 0 0 0 255 255 3 15 [Offset] [C Slice] [C-Area] [Mono L] 128 0 - 255 128 0 - 255 0-3 3 0 - 15 6[EXT Key]2 3 4 5X 128 Y 128 Z 1960010:003102[Crop]R1 R2 R3 R4 R50 A1215 8 7 12255 12A [LumKey] [PatternKey] 2 2 3 4 5 2 0 0 [EXTKey] 228 (NTSC)6 228 (NTSC) 2 680 680 680 275 (PAL) 275 (PAL) 2 - 228 (NTSC) 2 - 275 (PAL) 12 228 (NTSC) 1 6A 2 2 - 228 (NTSC) 2 - 275 (PAL)8 12 0 - 6807 0 - 680A 6 23D 275 (PAL)6301 3D 0R1 R2 R3 R4[Border] 2 Red Custom1 [Color] Blue Black 1 Custom2 10 Custom1 2 White 1 Yellow Custom2 Cyan 2 Green Magenta [White]R5255[Key] 3 4 5 0 0 0 255 15 255 [Slice] [Slope] [K Level] 0 15 255 DVE[Effects] [Off][DVE Plus] 3D (AG-VE70) 3401 3478 3601 2 [On] 3 4 53623 6001 6003 6006 6007 6009 [Off] [Off] 6001 6438 6601 67166634DVE [3D ]3536[Title Key]Page [Title] X 128 Y 128 Z 196 0 [Setup][Basic Pattern Key]30013046X 128 Y 128 Z 1960010:0095010010:00300216 0 A 6 A 2 8 12 0 7 12 6301 3D 03D2552553D0 90002556301 3D 0R1 R2 R3 R4R1R2R3R4R5R52552 3 4 [Red] 5 [Blue] 0 1[Hard] 255 [Black] 255[Soft][Border] 16 [Yellow] 1[Soft Border][Hard][Key] 2 3 4 5 1-30 (1-26) 1-8 [Shift] + [0] 0 255 [Slice] 0 15[Slope] 0 255 [Page] [Movie] 1 [Crawl] 0 15 255 DVE [Roll] [White] [Custom1][Cyan] [Custom2][Green] 2 255[Magenta] [White]<>DSK3738。

FLYSUN9200-DVK2.3ARM开发板用户手册北京飞旭科技有限公司版权所有版 本 日期 说明 1.0 2005-1-181.1 2005-1-291.2 2006-7-8目录1 整体介绍 (1)2 开发板核心处理器芯片说明 (2)2.1 AT91RM9200芯片的特点 (3)基于ARM® v4T 架构 (3)2.1.1 ARM9TDMI™2.1.2 集成了嵌入式内部电路仿真器 (4)2.1.3 引导程序 (4)2.1.4 嵌入式软件服务 (4)2.1.5 复位控制器 (5)2.1.6 存储控制器 (5)2.1.7 外部总线接口 (5)控制器 (6)2.1.8 SDRAMFlash控制器 (7)2.1.9 Burst2.1.10 外设数据控制器 (7)2.1.11 增强的中断控制器 (7)2.1.12 电源管理控制器 (8)2.1.13 系统定时器 (8)2.1.14 调试单元 (8)2.1.15 PIO控制器 (9)2.1.16 USB主机端口 (9)2.1.17 USB器件端口 (9)2.1.18 以太网MAC (10)2.1.19 串行外设接口 (10)2.1.20 两线接口 (10)2.1.21 USART (11)2.1.22 串行同步控制器 (11)2.1.23 定时/ 计数器 (11)2.1.24 多媒体卡接口 (12)2.1.25 引脚输出 (12)3 开发板硬件接口说明 (12)3.1 开发板接口分布图 (13)3.2 开发板硬件说明 (14)3.3 主板的外部总线接口 (15)3.3.1 总线接口说明 (15)4 Windows下核心板中的软件烧录方法 (16)4.1 网络环境配置 (16)4.1.1 配置PC计算机的网络IP地址 (16)4.1.2 TFTP服务器的配置和启动 (18)4.2 使用U-BOOT烧录程序 (19)4.3 FLASH为空时的烧录方法 (20)4.3.1 超级终端软件的配置方法 (21)4.4 已有LOADER和U-BOOT的LINUX内核和RAMDISK的烧录方法 (27)5 Linux下开发环境的安装与配置 (28)5.1 REDHAT LINUX 9.0的安装 (28)5.2 开发工具软件的安装 (28)5.3 网络IP地址配置 (29)5.4 配置NFS服务器 (31)5.5 Linux下TFTP服务器的配置 (34)6 根文件系统的修改与制做方法 (35)6.1 如何让用户自己的程序在开发板启动后自动运行 (36)6.2 如何修改开发板启动后的IP地址 (37)7 用户应用软件开发过程说明 (37)7.1 Makefile的编写 (37)7.2 应用软件调试过程 (38)7.2.1 Linux上minicom的配置 (39)7.3 演示软件目录结构说明 (42)1整体介绍FLYSUN9200-DVK2.3ARM开发板是由北京飞旭科技有限公司设计开发，主处理器基于Atmel公司的AT91RM9200 ARM处理器。

一、介绍Cortex-A7是英特尔公司于2012年推出的一款低功耗、高性能的处理器核。

作为Cortex-A系列处理器的一员，Cortex-A7采用了ARMv7指令集架构，具有双发射、乱序执行等先进的微架构特性，适合用于智能手机、平板电脑、物联网设备等低功耗场景。

二、架构1. 流水线Cortex-A7采用了8级流水线，可以充分利用指令级并行，提高处理器性能。

流水线的深度也是一种折衷，需要在性能和功耗之间进行平衡考量。

2. 缓存体系Cortex-A7内置了L1指令缓存和数据缓存，分别为32KB，具有良好的命中率和低延迟。

Cortex-A7还支持L2缓存，可以进一步提高数据访问效率。

3. 浮点运算Cortex-A7内置NEON浮点单元，支持高效的SIMD指令集，能够加速多媒体处理和信号处理等应用。

4. 内存管理Cortex-A7支持32位虚拟位置区域和32位物理位置区域，具有灵活的内存管理单元，能够满足多种操作系统和应用程序的需求。

三、功耗优化1. big.LITTLE架构Cortex-A7可以与Cortex-A15等高性能处理器核组成big.LITTLE架构，能够在保证性能的同时降低功耗。

通过动态调度，系统可以根据负载情况灵活地选择使用哪个处理器核，实现优化性能和功耗的平衡。

2. 睡眠状态Cortex-A7支持多种睡眠状态，包括快速睡眠、深度睡眠等，能够在不需要处理器运行时降低功耗，延长电池续航时间。

3. 功耗管理单元Cortex-A7具有专门的功耗管理单元，可以监控处理器的功耗情况，采取相应的策略，降低功耗的同时尽量不影响性能。

四、性能特征1. 频率调节Cortex-A7的频率可以根据负载情况动态调节，最高可达1.5GHz，在高负载时提供足够的性能，而在轻负载时降低频率，减少功耗。

2. 性能分析Cortex-A7内置了性能分析单元，可以实时监测处理器性能，帮助开发者找到性能瓶颈，并优化应用程序，提高整体系统性能。

ARM开发板使用手册PHILIP LPC2132ARM7TDMI第一章介绍LPC2132开发板是专门为arm 初学者开发的实验板，用户可以做基础的arm实验，也可以做基于ucos-ii的操作系统实验。

本系统的实验源代码全部开放，用户可以在此基础上开发产品，减少重复劳动。

由于LPC2132体积很小，并且功能强大，因此特别适合需要复杂智能控制的场合，其运行速度高于早期的80486计算机，而体积只有指甲大。

我们已经将LPC2132产品成功应用在干扰比较强的工业场合，经过6个月的运行，各项指标符合要求。

因此我们特别推荐这一款开发板作为ARM初学者入门。

由于此款开发板体积很小，非常适合直接应用在工业以及民用智能控制器的场合。

LPC2132 CPU介绍LPC2131/2132/2138 是基于一个支持实时仿真和跟踪的16/32 位ARM7TDMI-STM CPU，并带有32kB、64kB 和512kB 嵌入的高速Flash 存储器。

128 位宽度的存储器接口和独特的加速结构使32 位代码能够在最大时钟速率下运行。

对代码规模有严格控制的应用可使用16 位Thumb 模式将代码规模降低超过30%，而性能的损失却很小。

较小的封装和很低的功耗使LPC2131/2132/2138 特别适用于访问控制和POS 机等小型应用中；由于内置了宽范围的串行通信接口和8/16/32kB 的片内SRAM，它们也非常适合于通信网关、协议转换器、软件modem、语音识别、低端成像，为这些应用提供大规模的缓冲区和强大的处理功能。

多个32 位定时器、1个或2 个10 位8 路的ADC、10 位DAC、PWM 通道、47 个GPIO 以及多达9 个边沿或电平触发的外部中断使它们特别适用于工业控制应用以及医疗系统。

主要特性●●16/32 位ARM7TDMI-S 核，超小LQFP64 封装。

●●8/16/32kB 的片内静态RAM 和32/64/512kB 的片内Flash 程序存储器。

techor ICE™ ARM仿真器用户手册（Version 2.0）深圳技创科技有限公司TECHNIQUE INNOVATOR INC.－© 2003,2004 －第一章概述 (3)1.1 系统配置要求 (3)1.2 设备连接 (4)1.3 电源的使用 (4)1.4 techor ICE™的优点 (4)1.5 内核支持 (5)第二章JTAG口介绍 (6)2.1 接口连接 (6)2.2 接口电平 (7)2.3 TCK信号频率设置 (8)2.4 目标系统设计指南 (9)2.5 RTCK时钟 (10)2.6 JTAG连接转换座 (10)第三章techorICE™介绍 (12)3.1 系统功能层次划分 (12)3.2 软件架构 (12)3.3 远程调试功能 (13)3.4 Server配置 (14)3.4.1自动配置 (14)3.4.2手动配置 (14)3.4.3 IR长度文件 (15)3.4.4配置过程 (16)3.5 多内核目标系统 (16)3.6 系统组成结构 (18)第四章Server program使用指南 (20)4.1 启动Server program (20)4.2Server program菜单介绍 (21)4.2.1工具栏 (21)4.2.2文件菜单 (22)4.2.3视图菜单 (22)4.2.4控制菜单 (23)4.2.5连接菜单 (24)4.2.6设置菜单 (24)4.3Server状态指示 (24)4.3.1配置后的状态 (25)4.3.2连接后的状态 (26)4.3.3激活时的状态 (27)4.4并口设置 (28)4.5时钟设置 (28)4.6运行控制 (29)4.6.1指定各个设备之间的交互方式 (29)4.6.2设置轮询频率 (31)4.7启动选项设置 (32)附录一 TCK频率与设置值转换表 (34)附录二TCK设置值与频率转换表 (37)附录三常见问题 (40)第一章概述本章简单介绍techor ICE™ ARM仿真器的一些基本概念。