搜索资源列表
FCS校验计算器
- @FFWD2001040256* 只要输出@FFWD20010402 点击计算,则可以计算出FCS校验56,适用于欧姆龙协议。(@FFWD2001040256* as long as the output @FFWD20010402 click calculation, you can calculate the FCS checksum 56, apply to the OMRON protocol.)
2011_6_f4825a9c
- checksum計算的文檔,適用於很多需要 checksum的地方(a checksum document,used to study checksum)
posixtst_1_0_0_tar
- checksum CRC POSIX connection
CRCTool-v3.0
- 计算CRC校验的小工具,可以改变计算方式。嵌入式编程者的好朋友。特别是对modbus规约(CRC checksum calculation of small tools, you can change the way of calculation. Embedded programmer's good friend. Especially for Modbus Protocol)
Android_BMS_Combined_Test
- Arduino 与 TI锂电池保护芯片 BQ76PL536A之间的通讯控制测试程序, 包括用A柔道队弄对BQ76PL536A寄存器读写和CRC校验(Arduino and BQ76PL536A communication control test procedures, including register read and write and CRC checksum)
HDLC
- 实现hdlc收发控制,包括0x7e帧头检索、数据整理、crc校验等(HDLC transceiver control, including 0x7e header retrieval, data collation, CRC checksum)
CRC
- MODBUS RTU协议的仪表通信时需要进行CRC校验,单片机可以用此程序生成CRC校验码,多项式是0xA001 所用单片机为STC15系列单片机,不过CRC生成过程很简单,通用的51单片机都可以生成(MODBUS RTU protocol instrument communication needs CRC verification, SCM can use this procedure to generate CRC checksum, the polynomial is 0xA001
CRC
- CRC校验 ,网上找到的各种CRC校验函数,稍加修改便可移植!有这方面需要的可以下载看看!(CRC checksum, found on the Internet various CRC checksum function, a little modification can be transplanted! There is need for this, you can download to see!)
GAAN
- CRC校验,完成Crc校验 CRC check, complete Crc check(CRC check, complete the CRC checksum CRC check, complete CRC check)
Firmtsettint
- 演示了TTL的设置 当初弄懂UDP的伪头部跟UDP校验和的设置费了一点劲(Illustrates the TTL Settings First find out false head with UDP UDP checksum had a little difficulty in setting)
Demo
- crc校验示例,结构转换为字节数组,计数字节块的CRC16校验值,获取指定字节的高低位(crc Demo ,The structure is converted to a byte array, and the CRC16 checksum of the digital block is obtained to obtain the high and low bits of the specified byte)
x64
- Checksum .dll file in zip
CRCchensC
- 该文档是对crc算法的汇总,实现算法,校验数据,用于各种通讯数据的校验(The document is a summary of the CRC algorithm, the implementation of algorithms, checksum data, for a variety of communication data validation)
01_signal_test
- 其中的源地址和目的地址是指网卡的硬件地址(也叫MAC地址),长度是48位,是在网卡出厂时固化的。可在shell中使用ifconfig命令查看,“HWaddr 00:15:F2:14:9E:3F”部分就是硬件地址。协议字段有三种值,分别对应IP、ARP、RARP。帧尾是CRC校验码。(The source address and destination address refer to the hardware address of the network card (also known as
CRC16
- 公式节点中用C写的CRC16校验,已经在实际项目中使用了(The CRC16 checksum written in C in the formula node is already used in the actual project)
crc
- 两段地址组合的crc校准程序,length1 start_addr1的校验长度,length2 start_addr1+start_addr2的总的检验长度(Two section address combination of CRC calibration procedures, length1 is the start_addr1 checksum length, length2 is the start_addr1+start_addr2 the total length of the t
Modbus_RTU
- C#源码,modbus 调试软件源码 C#,modbus校验和(C# source code, MODBUS debugging software source code, C#, MODBUS checksum)
CheckSum
- 对16进制数据进行累加和计算。快速计算和校验(Accumulate and calculate the 16 Decimal data. Fast calculation and verification)
crc32
- CRC32 Checksum Library
客户端时间如何与服务器时间同步
- 多层系统开发,如何保持客户端与数据库或应用服务器时间同步是一个必须解决的问题 ,我发现许多系统取得是客户端的本地时间,造成多个客户端同时操作却时间不一样。而许多人采用频繁从数据库中取值的形式,增加服务器负载压力。当然有人说,数据保存的时候应该取数据库中时间 ,不错,但是涉及到本地数据之间的校验这类的操作,你该不会频繁地去数据库中得时间吧。鉴于此,本文利用windows系统的一个Api函数进行时间同步(Multilayer system development, how to maintain t