cmake-3.10.2-win64-x64
cmake-3.10.2-win64-x64,最新版本,外网下载非常慢,特此保存。
最新Git-2.16.1-64-bit
最新 Git-2.16.1-64-bit,外面下载很慢,在此保存。。
windows 设备管理 设备控制
windows 设备管理 设备控制
TI GPS BT FM三合一架构及代码移植方法
Table of Contents
Table of Contents 2
List of Figures 3
Revision History 4
1. Introduction 5
1.1. Purpose 5
1.2. Out of Scope 5
1.3. File Name 5
1.4. Definitions 5
2. Concept of Shared Transport 7
3. Requirements 9
4. Assumptions 9
5. System Architecture 10
5.1. Shared Transport driver 12
5.2. Initialization Manager 12
5.3. Shared Transport HCILL 13
5.4. Bluetooth driver 13
5.5. FM drivers 13
5.5.1. FM driver via V4L2 sub-system 13
5.5.2. FM driver via character device sub-system 13
5.6. Character device driver for GPS 14
6. Design Approach 15
6.1. Shared Transport driver 15
6.1.1. ST Core 15
6.1.2. ST UIM and ST KIM 17
6.1.3. ST HCILL 18
6.2. Bluetooth driver 18
6.3. FM drivers 19
6.3.1. FM V4L2 driver 20
6.3.2. FM Character Device interface 21
6.4. Character device driver for GPS 21
7. References 24
8. Appendix 1: Shared Transport in Android 25
8.1. Execution of UIM 25
8.2. Bluetooth On/Off 25
Ti BT FM GPS架构
这份资料,绝对不可多得,下了就知道
Bluetooth, FM, GPS Solution
with Shared Transport
Table of Contents 2
List of Figures 3
Revision History 4
1. Introduction 5
1.1. Purpose 5
1.2. Out of Scope 5
1.3. File Name 5
1.4. Definitions 5
2. Concept of Shared Transport 7
3. Requirements 9
4. Assumptions 9
5. System Architecture 10
5.1. Shared Transport driver 12
5.2. Initialization Manager 12
5.3. Shared Transport HCILL 13
5.4. Bluetooth driver 13
5.5. FM drivers 13
5.5.1. FM driver via V4L2 sub-system 13
5.5.2. FM driver via character device sub-system 13
5.6. Character device driver for GPS 14
6. Design Approach 15
6.1. Shared Transport driver 15
6.1.1. ST Core 15
6.1.2. ST UIM and ST KIM 17
6.1.3. ST HCILL 18
6.2. Bluetooth driver 18
6.3. FM drivers 19
6.3.1. FM V4L2 driver 20
6.3.2. FM Character Device interface 21
6.4. Character device driver for GPS 21
7. References 24
8. Appendix 1: Shared Transport in Android 25
8.1. Execution of UIM 25
8.2. Bluetooth On/Off 25
TI最权威资料,内部使用
Handbook to bring up Shared Transport with Bluetooth and FM
Bringing up of connectivity modules like Bluetooth, FM and GPS requires the integration of Shared transport to the code-base. Below are the components that should be integrated to the baseline of the customer’s Android code-base.
MFC中利用树形控件在主对话框当中嵌入子对话框
MFC中利用树形控件在主对话框当中嵌入子对话框
i2c源代码情景分析
第1章 i2c核心数据结构之间的关系 4
第2章 i2c-core.c的初始化 10
i2c_init函数 10
i2cproc_init函数 11
第3章 安装、卸载pxa255的i2c适配器驱动程序 13
pxa_i2c数据结构 13
i2c_adap_pxa_init函数 15
i2c_add_adapter函数 16
i2c_del_adapter函数 18
i2c_adap_pxa_exit函数 20
第4章 安装、卸载ltc3445驱动程序 21
ltc3445_init函数 21
i2c_add_driver函数 22
i2c_probe函数 23
i2c_check_funct
ACPI语言设计向导
Draft
Copyright © 1996, Intel Corporation, Microsoft Corporation, Toshiba Corp.
All rights reserved.
INTELLECTUAL PROPERTY DISCLAIMER
THIS SPECIFICATION IS PROVIDED “AS IS” WITH NO WARRANTIES WHATSOEVER INCLUDING ANY
WARRANTY OF MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR ANY
WARRANTY OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATION, OR SAMPLE.
NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL
PROPERTY RIGHTS IS GRANTED OR INTENDED HEREBY.
INTEL, MICROSOFT, AND TOSHIBA, DISCLAIM ALL LIABILITY, INCLUDING LIABILITY FOR
INFRINGEMENT OF PROPRIETARY RIGHTS, RELATING TO IMPLEMENTATION OF INFORMATION
IN THIS SPECIFICATION. INTEL, MICROSOFT, AND TOSHIBA, DO NOT WARRANT OR REPRESENT
THAT SUCH IMPLEMENTATION(S) WILL NOT INFRINGE SUCH RIGHTS.
THIS DOCUMENT IS A DRAFT FOR COMMENT ONLY AND IS SUBJECT TO CHANGE WITHOUT
NOTICE. READERS SHOULD NOT DESIGN PRODUCTS BASED ON THIS DOCUMENT.
Win8 I2C驱动程序
Win8 I2C驱动程序,很好的参考例子
当前最新的GPS培训文档
Host MCP software
BT, FM and NaviLink
WLAN support
Mobile Connectivity Package Framework
OS abstraction
Platform abstraction
NaviLink features
Assisted mode
SUPL
Autonomous mode
GPS Components
NAVC – navigation controller
NAVL – navigation library
RRC / RRLP enc & decode
NL-IF – navilink interface (command adapter)
移植Bluetooth到Android4.0
########################BT FM ##########################
Download the image using command:
1 # Flash Image
Put the board in Flashing mode. Refer below Appendix - 1
cd <your path>/Nvidia_Demo/android_gb_cardhu_os_image
sudo ./nvflash --bct flash.bct --setbct --odmdata 0x40080105 --configfile flash.cfg --create --bl bootloader.bin --go
####################################################################################################################################################################################################
Appendix - 1 Nvidia Board in Flashing Mode
####################################################################################################################################################################################################
1. Connect the Debug board to Cardhu board.
2. Connect the power supply and Micro USB to Cardhu
3. On the Debug Board Press S12 (FRC RCV), Keeping this pressed Press and release S7 (RESET), Now Release S12.
4. Now Device is in Flashing mode, We can start nvflash command now.
####################################################################################################################################################################################################
Appendix - 2 Nvidia Board Keys (On Debug Board)
####################################################################################################################################################################################################
1. S7 (RESET) --> is the RESET button.
2. S5 (ROW1) --> is the BACK button.
2. S10 (ROW2) --> is the Home button.
4. S6 (ON KEY) --> is Wake up button.
####################################################################################################################################################################################################
Appendix - 3 Nvidia Board unavailable Keys workaround
####################################################################################################################################################################################################
1.To execute teh specific keys, provide the key inputs from adb shell. Provide the keyevent for the desired key.Refer teh key list below.
Eg: for MENU key
run adb shell
#input keyevent 82
{ "STAR", 17 },
{ "POUND", 18 },
{ "DPAD_UP", 19 },
{ "DPAD_DOWN", 20 },
{ "DPAD_LEFT", 21 },
{ "DPAD_RIGHT", 22 },
{ "DPAD_CENTER", 23 },
{ "VOLUME_UP", 24 },
{ "VOLUME_DOWN", 25 },
{ "POWER", 26 },
{ "CAMERA", 27 },
{ "CLEAR", 28 },
{ "HEADSETHOOK", 79 },
{ "FOCUS", 80 },
{ "PLUS", 81 },
{ "MENU", 82 },
{ "NOTIFICATION", 83 },
{ "SEARCH", 84 },
{ "MEDIA_PLAY_PAUSE", 85 },
{ "MEDIA_STOP", 86 },
{ "MEDIA_NEXT", 87 },
移植Bluetooth FM GPS到Android2.3的文档
Handbook to bring up Shared Transport with Bluetooth and FM
Bringing up of connectivity modules like Bluetooth, FM and GPS requires the integration of Shared
transport to the customer’s target code-base. Below are the components that should be integrated to
the baseline of the customer’s Android code-base.
TWL5030 Datasheet
The TWL5030 is an integrated power-management/audio codec device for use in portable cellular
telephone designs that derive their power from batteries based on Li-ion, Li-ion polymer, or
manganese-cobalt chemistries. It typically receives commands from either an application processor or a
modem and, as shown in Section 1.1.1, Features, and Figure 1-1, provides power conversion/regulation
and a complete audio codec section and class-D audio amplifier. In addition to generic support
capabilities, the TWL5030 meets the specific power requirements of the TI OMAP3430 and OMAP2430C
devices.
OMAP3630 DataSheet
The OMAP36xx high-performance, multimedia application device is based on the enhanced OMAP™ 3
architecture and is integrated on TI advanced 45-nm process technology.
The architecture is designed to provide best-in-class video, image, and graphics processing sufficient to
support the following:
• Streaming video
• 2-dimension/3-dimension (2D/3D) mobile gaming
• Video conferencing
• High-resolution still image
• Video capture in 2.5G wireless terminals, 3G wireless terminals, rich multimedia-featured handsets,
and high-performance personal digital assistants (PDAs)
The device supports high-level operating systems (OSs) such as:
• Android™ OS
• Linux®
• Symbian OS™
• Windows® CE
This OMAP device includes state-of-the-art power-management techniques required for high-performance
mobile products.
The following subsystems are part of the device:
• Microprocessor unit (MPU) subsystem based on the ARM Cortex™-A8 microprocessor
• Imaging video and audio (IVA2.2) subsystem with a TMS320C64x™ digital signal processor (DSP)
core
• POWERVR® SGX530 subsystem for 2D and 3D graphics acceleration to support display and gaming
effects
• Camera image signal processor (ISP2P) that supports multiple formats and interfacing options to a
wide variety of image sensors
• Display subsystem with a wide variety of features for multiple concurrent image manipulation, and a
programmable interface supporting a wide variety of displays. The display subsystem also supports
NTSC/PAL video out.
• Level 3 (L3) and level 4 (L4) interconnects that provide high-bandwidth data transfers for multiple
initiators to the internal and external memory controllers and to on-chip peripherals
The device also offers:
• A comprehensive power and clock-management scheme that enables high-performance, low-power
operation, and ultralow-power standby features. The device also supports SmartReflex™ adaptative
voltage control. This power-management technique for automatic control of the operating voltage of a
module reduces the active power consumption.
• Connectivity to various cellular modem chipset
• Memory stacking feature using the package-on-package (POP) implementation (see Section 1.4, Package-on-Package Concept)
函数调用过程种种细节分析
堆栈帧,函数调用,堆栈切换 函数调用过程种种细节分析