The TARGET of the assignment is to familiarize the student with MIMO channel modeling. The work is based on L. Schumacher’s MIMO channel model implementation, with added capacity analysis. First the channel model implementation is introduced, and thereafter analysis on MIMO channel with different parameters is done. Finally a short report on the results is written.
標簽: familiarize assignment The the
上傳時間: 2014-01-01
上傳用戶:jjj0202
radar equation for TARGET estimation
標簽: estimation equation TARGET radar
上傳時間: 2017-09-17
上傳用戶:sssl
This mambot adds to the external links in a content the text “ TARGET="_blank"” . Thus, all the links pointing to external sites will be opened in a new window.
標簽: the external content mambot
上傳時間: 2013-12-17
上傳用戶:zhaiyanzhong
Introduction to radar TARGET recognition,IET雷達目標識別電子書
標簽: Introduction recognition TARGET radar to
上傳時間: 2018-05-08
上傳用戶:icae0327
TMS320F2812 DSP 是運動控制系統很好的硬件支撐平臺,但傳統的DSP 代碼開發周期較長,效率不高。Matlab 公司的Embedded TARGET for TI C2000 DSP
標簽: Simulink Matlab F2812 2812
上傳時間: 2013-04-24
上傳用戶:13188549192
· 摘要: 傳統的DSP軟件開發都是先設計DSP上的算法并仿真然后將其寫成特定DSP的代碼(c或是匯編)在目標板上實現.介紹了一種新的高效、集成的DSP軟件設計方法.利用MATLAB7.0新提供的Embeded TARGET for TI C2000 DSP、simulink、Real-Time Workshop和TI的CCS IDE相結合,在MATLAB環境下生成DSP的C代
上傳時間: 2013-07-26
上傳用戶:hebmuljb
1 為什么要重視電源噪聲問題? 2 電源系統噪聲余量分析 3 電源噪聲是如何產生的? 4 電容退耦的兩種解釋 4.1 從儲能的角度來說明電容退耦原理。 4.2 從阻抗的角度來理解退耦原理。 5 實際電容的特性 6 電容的安裝諧振頻率 7 局部去耦設計方法 8 電源系統的角度進行去耦設計 8.1 著名的TARGET Impedance(目標阻抗) 8.2 需要多大的電容量 8.3 相同容值電容的并聯 8.4 不同容值電容的并聯與反諧振(Anti-Resonance) 8.5 ESR 對反諧振(Anti-Resonance)的影響 8.6 怎樣合理選擇電容組合 8.7 電容的去耦半徑 8.8 電容的安裝方法 9 結束語
標簽: 電源完整性
上傳時間: 2013-11-06
上傳用戶:mahone
STM32的ADC+DMA+USATT功能
上傳時間: 2013-11-07
上傳用戶:q986086481
The MSP-FET430PIF is a Parallel Port interface (does not include TARGET board) that is used to program and debug MSP430 FET tools and test boards through the JTAG interface. This interface is included in our FET tools, but sold without the development board. This interface uses a Parallel PC Port to communicate to the Debugger Software (IAR Kickstart software included) running on the PC. The interface uses the standard 14 pin header to communicate to the MSP430 device using the standard JTAG protocol. The flash memory can be erased and programmed in seconds with only a few keystrokes, and since the MSP430 flash is extremely low power, no external power supply is required. The tool has an integrated software environment and connects directly to the PC which greatly simplifies the set-up and use of the tool. The flash development tool supports development with all MSP430 flash parts. Features MSP430 debugging interface to connect a MSP430-Flash-device to a Parallel port on a PC Supports JTAG debug protocol (NO support for Spy-Bi-Wire (2-wire JTAG) debug protocol, Spy-Bi-Wire (2-wire JTAG) is supported by MSP-FET430UIF) Parallel Port cable and a 14-conductor TARGET cable Full documentation on CD ROM Integrated IAR Kickstart user interface which includes: Assembler Linker Limulator Source-level debugger Limited C-compiler Technical specifications: Backwardly compatable with existing FET tool boards.
上傳時間: 2013-10-26
上傳用戶:fengweihao158@163.com
The μPSD32xx family, from ST, consists of Flash programmable system devices with a 8032 MicrocontrollerCore. Of these, the μPSD3234A and μPSD3254A are notable for having a complete implementationof the USB hardware directly on the chip, complying with the Universal Serial Bus Specification, Revision1.1.This application note describes a demonstration program that has been written for the DK3200 hardwaredemonstration kit (incorporating a μPSD3234A device). It gives the user an idea of how simple it is to workwith the device, using the HID class as a ready-made device driver for the USB connection.IN-APPLICATION-PROGRAMMING (IAP) AND IN-SYSTEM-PROGRAMMING (ISP)Since the μPSD contains two independent Flash memory arrays, the Micro Controller Unit (MCU) can executecode from one memory while erasing and programming the other. Product firmware updates in thefield can be reliably performed over any communication channel (such as CAN, Ethernet, UART, J1850)using this unique architecture. For In-Application-Programming (IAP), all code is updated through theMCU. The main advantage for the user is that the firmware can be updated remotely. The TARGET applicationruns and takes care on its own program code and data memory.IAP is not the only method to program the firmware in μPSD devices. They can also be programmed usingIn-System-Programming (ISP). A IEEE1149.1-compliant JTAG interface is included on the μPSD. Withthis, the entire device can be rapidly programmed while soldered to the circuit board (Main Flash memory,Secondary Boot Flash memory, the PLD, and all configuration areas). This requires no MCU participation.The MCU is completely bypassed. So, the μPSD can be programmed or reprogrammed any time, anywhere, even when completely uncommitted.Both methods take place with the device in its normal hardware environment, soldered to a printed circuitboard. The IAP method cannot be used without previous use of ISP, because IAP utilizes a small amountof resident code to receive the service commands, and to perform the desired operations.
標簽: Demonstration 3200 USB for
上傳時間: 2014-02-27
上傳用戶:zhangzhenyu
