登录
首页 » Others » 环形SeekBar CircleSeekBar

环形SeekBar CircleSeekBar

于 2020-12-03 发布
0 177
下载积分: 1 下载次数: 1

代码说明:

自定义View实现环形SeekBar,可以在xml中设置属性,也可以通过java代码设置属性

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论

0 个回复

  • Jsp图书馆管理系统源码
    ssh 整合的Jsp图书馆管理系统源码
    2021-05-07下载
    积分:1
  • abc到dq坐标(派克变换,Park变换,Clarck变换)simulink仿真
    Matlab,Simulink仿真。该仿真实现了三相abc到al_be再到dq坐标轴的变换
    2019-09-03下载
    积分:1
  • 数据挖掘论文合集-242篇(part1)
    【实例简介】EIS 环境下的数据挖掘技术的研究.caj FCC油品质量指标智能监测系统的数据挖掘与修正技术.caj IDSS 中数据仓库和数据挖掘的研究与实现.caj InternetWeb数据挖掘研究现状及最新进展.caj Internet数据挖掘原理及实现.caj Min-Max模糊神经网络的应用研究.pdf OLAP与数据挖掘一体化模型的分析与讨论.caj OLAP和数据挖掘技术在Web日志上的应用.caj ON-LINE REDUCING MACHINING ERRORS IN BORING OPERATIONBY FORECASTING COMPENSATORY CONTROL TECHNIQUE.pdf SDSS中空间数据挖掘部件的设计与实现.kdh swlms.pdf Web上的数据挖掘技术和工具设计.kdh Web使用模式研究中的数据挖掘.caj Web数据挖掘技术及工具研究.kdh Web数据挖掘技术探讨.kdh Web数据挖掘的BN实现方案.kdh XML与面向Web的数据挖掘技术.caj 一个新的数据挖掘模型与算法.caj 一个面向电子商务的数据挖掘系统的设计与实现.caj 一种估计人工神经网络泛化误差的新方法.pdf 一种基于数据仓库的数据挖掘系统的结构框架.caj 一种基于神经网络的数据挖掘方法.caj 一种基于遗传算法的模糊神经网络最优控制.pdf 一种实时过程控制中的数据挖掘算法研究.caj 一种建立模糊模型的粗糙集方法.pdf 一种新型数据分析技术——数据挖掘.caj 一种新的高效关联规则数据挖掘算法.caj 一种有效的用于数据挖掘的动态概念聚类算法.caj 一种测试数据挖掘算法的数据源生成方法.caj 一种自适应模糊控制器.pdf 一类递归RBF神经网络模型的稳定性讨论.pdf 不确定性线性系统模型处理的一种新方法.pdf 中介粗集及其在数据挖掘中的应用.caj 二进神经网络隐元数目最小上界研究.pdf 以地物识别和分类为目标的高光谱数据挖掘.caj 信息技术在全球银行业的应用(六)——数据挖掘技术及其应用.kdh 信息技术在全球银行业的应用(六)——数据挖掘技术及其应用1.kdh 信息检索中的数据挖掘技术.caj 信息系统中一种面向粗糙集的数据挖掘方法.caj 全连接回归神经网络的稳定性分析.pdf 关注政府上网后的数据挖掘.kdh 决策支持分析新技术——数据挖掘.caj 分类特征规则的数据挖掘技术.caj 利用决策树进行数据挖掘中的信息熵计算.caj 利用模糊神经网络进行数据挖掘的一种算法.caj 前向网络bp算法在数据挖掘中的运用.caj 区间值属性不完全信息下的数据挖掘.caj 可视化数据挖掘技术及其应用.caj 在IDS中利用数据挖掘技术提取用户行为特征.caj 基于CORBA的数据挖掘工具KDD-DC.caj 基于Web的数据仓库与数据挖掘技术.caj 基于Web的数据挖掘技术及访问路径模式的研究.caj 基于XML的WEB数据挖掘技术.kdh 基于中心流形定理的永磁同步电动机模型的分支分析.pdf 基于云模型的Web日志数据挖掘技术.caj 基于代理的分布式数据挖掘系统设计.caj 基于信息熵的地学空间数据挖掘模型.caj 基于关联规则的舰艇故障诊断数据挖掘系统结构框架.caj 基于增强型算法并能自动生成规则的模糊神经网络控制器.pdf 基于多媒体数据库的数据挖掘系统原型.caj 基于小波理论的数据挖掘方法研究.caj 基于属性分类的数据挖掘方法.caj 基于改进Elman网的非线性系统的自适应建模与预估.pdf 基于数据抽取器实现数据挖掘.caj 基于数据挖掘建立动态人事管理决策系统.kdh 基于数据挖掘建立高校系科办学评估体系的合理性评价系统.caj 基于数据挖掘技术的抽油机泵参调整DSS决策支持系统.caj 基于数据挖掘方法的电子邮件过滤.caj 基于数据挖掘模型的高压输电线系统故障诊断.caj 基于数据挖掘的地下硐室围岩稳定性判别.caj 基于数据挖掘的普通话韵律规则学习.caj 基于数据挖掘的智能化入侵检测系统.caj 基于数据挖掘的深部采场岩爆知识的自动获取.caj 基于数据挖掘的知识发现在MDSS中的应用研究.caj 基于数据挖掘的类比推理技术在石油产品分析系统中的实现.caj 基于数据挖掘的类比推理技术在石油产品分析系统中的实现1.caj 基于数据挖掘的群决策模型.caj 基于智能化数据挖掘的高新技术监测分析技术研究.caj 基于模糊对向神经网络的非线性动态系统辨识器.pdf 基于模糊规则的非线性系统建模方法.pdf 基于模糊逻辑的一类非线性系统直接自适应控制.pdf 基于相联规则的数据挖掘理论.caj 基于知识应用的数据挖掘技术理论分析与应用研究.caj 基于神经网络的多模
    2021-10-30 00:32:01下载
    积分:1
  • usrp-b210全套文档资料,labview-FPGA开发指南
    usrp-b210全套文档资料,包括usrp b210硬件原理图,AD9361学习总结,spartan-6芯片资料,labview-FPGA开发指南
    2021-05-06下载
    积分:1
  • 网上订餐系统的设计与实现
    网上订餐系统的设计与实现,毕设,经测试,系统完美运行。
    2020-11-30下载
    积分:1
  • 使用CC2591作为CC2530的功放
    使用CC2591作为CC2530的功放, CC2591 PAThe absolute maximum ratings and operating conditions listed in the CC2530 datasheet [1]and the CC2591 datasheet [4] must be followed at all times. Stress exceeding one or more ofthese limiting values may cause permanent damage to any of the devicesNote that these characteristics are only valid when using the recommended register settingspresented in Section 4.6 and in Chapter 8, and the CC2530 - EM reference designOperating Frequency240524835MHzOperating Supply Voltage2036VOperating Temperature-40CTC=25C, VDD=3.0V, f=2440 MHz if nothing else is stated. All parameters are measuredon the CC2530-Cc2591EM reference design [11] with a 50 Q2 loadReceive CurrentWait for sync, -90 dBm input levelWait for sync, -50 dBm input level24mATXPOWER OXE5166mATXPOWER OXD5149mATXPOWER OXC5138mATXPOWER OXB5127mATransmit currentTXPOWER OXA5115ATXPOWER = 0X95100mATXPOWER = 0X8594ATXPOWE=0×75mATXPOWE=0×6579APower Down Current PM2UAISTRUMENTSPage 3 of 19SWRA308ATC=25C, Vdd=3.0V, f= 2440 MHz if nothing else is stated. All parameters are measuredon the CC2530-CC2591 EM reference design with a 50 Q2 loadReceive Sensitivity HGM 1 %PER, IEEE 802. 15.4[6] requires -85 dBm-988dBmReceive Sensitivity LGM1 PER, IEEE 802. 15.4 [6] requires -85 dBm-90.4dBmSaturationlEEE 802.15. 4 [6] requires-20 dBm10dBmWanted signal 3 db above the sensitivity levelIEEE 802.15.4 modulated interferer at ieee 802.15.4 channelsInterferer Rejection+5 MHz from wanted signal, IEEE 802. 15. 4 [6] requires 0 dBdB+10 MHz from wanted signal, IEEE 802. 15. 4 [6] requires 30 dB49dB+20 MHz from wanted signal wanted signal at- 82d BmdBdue to in the external lna and the offset in cc2530 the rssi readouts from cc2530CC2591 is different from rssi offset values for a standalone cc2530 design the offsetvalues are shown in table 4.4High Gain Mode79LoW Gain mode67Real rssi Register value-Rssl offsetISTRUMENTSPage 4 of 19SWRA308ATc=25C, Vdd=3.0V, f=2440 MHz if nothing else is stated All parameters are measuredon the CC2530-CC2591 EM reference design with a 50 Q2 load Radiated measurements aredone with the kit antennaRadiated Emissionwith TXPOWer Oxe5Conducted 2. RF (FCC restricted band)-462|dBmConducted 3. RF(FCC restricted band46.5 dBmComplies withFCC 15.247. SeeChapter 7 for moredetails about regulatoryRadiated 2.RF(FCC restricted band)42.2dBmrequirements andcomplianceIEEE 802.15.4[6]requires max.35%%Measured as defined by IEEE 802.15. 4 6TXPOWER OxE5. f= EEE 802.15. 4 channels13TXPOWER= OXD5. f= EEE 802.15.4 channelsTXPOWER= OXC5 f= EEE 802.15.4 channelsMax error∨ ectorTXPOWER OxB5 f= IEEE 802.15. 4 channelsMagnitude(EVM)TXPOWER OxA5. f= IEEE 802.15.4 channelsTXPOWER 0X95. f= IEEE 802. 15.4 channels643333%%%%%%%TXPOWER= 0x85. f= iEEE 802. 15.4 channelsTXPOWER =0x75 f= IEEE 802. 15.4 channels%TXPOWER= 065. f= iEEE 802. 15.4 channelsThe RF output power of the CC2530- CC2591 EM is controlled by the 7-bit value in theCC2530 TXPOWER register. Table 4.6 shows the typical output power and currentconsumption for the recommended power settings The results are given for Tc= 25 C, Vdd3.0V and f= 2440 MHz, and are measured on the cC2530-CC2591 EM reference designwith a 50 Q2 load. For recommendations for the remaining CC2530 registers, see Chapter 8 oruse the settings given by SmartRF StudioOXE520166OxD519149OxC18138OxB517127OxA5161150x95141000x8513940X75860x651079Note that the recommended power settings given in Table 4.6 are a subset of all the possibleTXPOWER register settings. However, using other settings than those recommended mightINSTRUMENTSPage 5 of 19SWRA308Aresult in suboptimal performance in areas like current consumption, EVM, and spuriousemissionTc=25C, Vdd=3.0V, f=2440 MHz if nothing else is stated All parameters are measuredon the CC2530-CC2591EM reference design with a 50 32 load2221-2V201918171611121314151617181920212223242526251510OxE5OxC5OxA50X850x65540-30-20-1001020304050607080ISTRUMENTSPage 6 of 19SWRA308A98Avg 3.6VAva 3vAvg 2V110111213141516171819202122232425261023.6V-1062V-110-40-30-20-100102030405060708070604020-Wanted signal at:-82 dBm10ISTRUMENTSPage 7 of 19SWRA308ACC2530-CC2591EM High Gain ModeC C2530-CC2591EM Low Gain Mode- CC2530EM40000-100110100908070-60-50-40-30-20-100The IEEE standard 802.15. 4 [8] requires the transmitted spectral power to be less than thelimits specified in table 4.7If-fc>3.5 MHz-20 dB-30 dBmThe results below are given for Tc=25 C, Vdd=3.0V and f= 2440 MHz, and are measuredon the CC2530-CC259 1EM reference design with a 50 Q loadIEEE absoluteChannel 182432.52435243752442524452447.5ISTRUMENTSPage 8 of 19SWRA308AOnly a few external components are required for the CC2530-CC2591 reference design. Atypical application circuit is shown below in Figure 5.1. Note that the application circuit figuredoes not show how the board layout should be done. The board layout will greatly influencethe RF performance of the CC2530-CC2591EM. TI provides a compact CC2530CC2591 EM reference design that it is highly recommended to follow. The layout, stack-upand schematic for the CC2591 need to be copied exactly to obtain good performance. Notethat the reference design also includes bill of materials with manufacturers and part numbersL102 L10=TI INF inductorVDD13cc2530LA 1RF PANTCC2591 RF NFNPA EN(P1 1)i工工I NA FNP:1HGM ENPO 7)T:1Proper power supply decoupling must be used for optimum performance. In Figure 5.1, onlythe decoupling components for the CC2591 are shown. This is because, in addition todecoupling, the parallel capacitors C11, C101, and C131 together with, L101, L102, TL11TL101 and TL131 also work as RF loads. These therefore ensure the optimal performancefrom the CC2591. C161 decouples the AvDD blAs power.The placement and size of the decoupling components, the power supply filtering and thePCB transmission lines are very important to achieve the best performance Details about theimportance of copying the CC2530-CC2591EM reference design exactly and potentialconsequences of changes are explained in chapter 6The RF input/output of CC2530 is high impedance and differential. The CC2591 includes abalun and a matching network in addition to the PA, LNa and RF switches which makes theinterface to the CC2530 seamless. Only a few components between the CC2530 andCC2591 necessary for RF matching For situation with extreme mismatch(VSWR 6: 1 till 12: 1out-of-band as shown in Figure 6.2) it is recommended to include all the components asshown in Figure 5.1ISTRUMENTSPage 9 of 19SWRA308ANote that the PCB transmission lines that connect the two devices also are part of the RFmatching. It is therefore important to copy the distance between the devices, the transmissionlines and the stack-up of the PCB according to the reference design to ensure optimumperformanceThe network between the CC2591 and the antenna(L111, C112, C111 C113 and L112matches the CC2591 to a 50 2 load and provides filtering to pass regulatory demands. C111also works as a dc-blockR151 is a bias resistor the bias resistor is used to set an accurate bias current for internaluse in the cc2591The TI reference design contains two antenna options. As default, the Sma connector isconnected to the output of CC2591 through a 0 Q2 resistor. This resistor can be soldered offand rotated 90 clockwise in order to connect to the PCB antenna, which is a planar invertedF antenna(PIFA). Note that all testing and characterization has been done using the SMAconnector. The PCB antenna has only been functionally tested by establishing a link betweentwo EMs. Please refer to the antenna selection guide [6] and the Inverted F antenna designnote [7 for further details on the antenna solutionsISTRUMENTSPage 10 of 19SWRA308A
    2020-11-30下载
    积分:1
  • 基于遗传算法的机组组合
    基于遗传算法的机组组合
    2020-11-28下载
    积分:1
  • HHT课件——国立中央大学
    很不错的HHT课程介绍以及hilbert-huang程序.
    2020-12-11下载
    积分:1
  • 雅克比法求对称矩阵的特征值(MATLAB序设计与应用)课设
    雅克比法求对称矩阵的特征值(MATLAB程序设计与应用)课设,里面有2份不同的课设,都已近调试过了。要在MATLAB7.0上运行
    2020-12-09下载
    积分:1
  • Attention-based LSTM for Aspect-level Sentiment Classification 论文代码
    Attention-based LSTM for Aspect-level Sentiment Classification 论文代码作者: Yequan Wang Minlie Huang Li Zhao Xiaoyan ZHu
    2021-05-07下载
    积分:1
  • 696516资源总数
  • 106914会员总数
  • 0今日下载