您完整的测试与测量实验室
您可以将PicoScope 2000系列用作开箱即用的高级示波器,频谱分析仪,函数发生器,任意波形发生器和协议。混合信号模型还增加了一个16通道逻辑分析仪。一个紧凑的低成本USB供电单元中的完整电子实验室。
PicoScope 2000A型号具有的性价比,是教育,业余爱好和现场服务使用的理想选择。在实验室中,低成本使每个人只需一个示波器,而不必共享。
PicoScope 2000B型号具有以下优点:深度内存(128 MS),更高的带宽(100 MHz)和更快的波形更新速率。PicoScope 2000B模型为您提供了对波形进行高级分析的性能。它们是设计,调试和串行解码的理想选择。
左侧的“配置您的范围”面板可提供有关型号,规格和价格的快速指南。
示波器
每台PicoScope 2000的核心都是*的示波器,它不仅提供您期望的一切,而且还具有以下优点:
- 10,000个波形循环缓冲区
- 每秒高达80,000个波形的更新速率
- 面膜极限测试
- 高级数学和过滤
- 带有统计的测量
- *的数字触发
- 分辨率提高到12位
逻辑分析仪/混合信号能力
PicoScope 2000系列包括混合信号模型,其中 包括16个数字输入,因此您可以同时查看数字和模拟信号。
数字量输入可以单独显示,也可以按命名组显示,二进制,十进制或十六进制值显示在总线样式的显示屏中。可以为每个8位输入端口定义一个从–5 V到+5 V的独立逻辑阈值。数字触发可以通过任何位模式与任意输入上的可选跳变结合来激活。可以在模拟或数字输入通道或两者上设置高级逻辑触发器,以启用复杂的混合信号触发。
数字输入为串行解码选项带来了额外的能量。您可以同时解码所有模拟和数字通道上的串行数据,从而为您提供多达18个数据通道。例如,您可以同时解码多个SPI,I²C,CAN总线,LIN总线和FlexRay信号!
串行总线解码和协议分析
PicoScope可以解码1-Wire,ARINC 429,CAN&CAN FD,DALI,DCC,DMX512,以太网,FlexRay,I²C,I²S,LIN,Manchester,MODBUS,PS / 2,SENT,SPI,UART(RS-232 / RS -422 / RS-485)和USB 1.1协议数据作为标准配置,正在开发更多协议,并在将来通过免费软件升级提供这些协议。
可以捕获和解码多种协议,的限制是可用通道的数量(MSO模型为18)。观察跨网桥(例如CAN总线输入,LIN总线输出)的数据流的能力异常强大。
深度内存缓冲区使PicoScope 2000B模型成为串行解码的理想选择,因为它可以捕获和解码成千上万的数据帧。
FFT频谱分析仪
频谱视图绘制幅度与频率的关系曲线,揭示了示波器视图中可能隐藏的细节。非常适合发现信号中的噪声,串扰或失真。
您可以在同一数据的示波器视图旁边显示多个频谱视图。可以向显示屏添加一套全面的自动频域测量功能,包括THD,THD + N,SNR,SINAD和IMD。可以将掩码限制测试应用于频谱,甚至可以同时使用AWG和频谱模式来执行扫频标量网络分析。
使用PicoScope 2000B模型,可以在毫秒内计算多达1百万个点的FFT,从而提供出色的频率分辨率。增加FFT中的点数也会降低本底噪声,从而显示出原本隐藏的信号。
任意波形发生器(AWG)和函数发生器
所有PicoScope 2000系列示波器都具有内置的函数发生器和任意波形发生器(AWG),它们在前面板BNC上输出信号。
函数发生器可以生成正弦波,方波,三角波和DC电平波形,此外还可以生成更多波形,而AWG允许您从数据文件导入自定义波形,或者使用内置的图形AWG编辑器创建和修改它们。
除了电平,偏移和频率控制外,高级选项还允许您扫描一定范围的频率。结合*的频谱模式以及包括峰值保持,平均和线性/对数轴在内的选项,这为测试放大器和滤波器响应提供了一个强大的工具。
PicoScope 2000B模型具有 触发选项,当满足各种条件(例如示波器触发或模板极限测试失败)时,允许输出一个或多个波形周期。
下载新功能或编写自己的功能
该软件开发套件(SDK)允许您编写自己的软件,并包括适用于Microsoft Windows,Apple Mac(OS X)和Linux(包括Raspberry Pi和BeagleBone)的驱动程序。
示例代码显示了如何与第三方软件包(例如Microsoft Excel,National Instruments LabVIEW和MathWorks MATLAB)接口。
还有一个活跃的PicoScope用户社区,他们在网站的Pico论坛 和PicoApps部分共享代码和应用程序 。对面所示的“频率响应分析器” 是欢迎的第三方应用程序之一。
| 模型 | PicoScope | ||||||
|---|---|---|---|---|---|---|---|
| 带宽 | 10兆赫 | 25兆赫 | 50兆赫 | 70兆赫 | 100兆赫 | ||
| 2通道 | 2204A | 2205A | 2206B | 2207B | 2208B | ||
| 4通道 | 2405A | 2406B | 2407B | 2408B | |||
| 2通道MSO | 2205A MSO | 2206B MSO | 2207B MSO | 2208B MSO | |||
| 示波器-垂直(模拟输入) | |||||||
|---|---|---|---|---|---|---|---|
| Oscilloscope bandwidth is defined as the frequency at which a sine wave input signal is attenuated to 70.7% of the signal’s true amplitude, known as the –3 dB point, a term based on a logarithmic scale." data-original-title="Bandwidth" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">带宽 | 10兆赫 | 25兆赫 | 50兆赫 | 70兆赫 | 100兆赫 | ||
| Rise and fall time measurements are commonly used when validating the signal integrity of square waves, pulses, and clocks in digital systems. Rise time characteristics are important in electronics because they indicate the ability of a circuit to respond to fast input signals. More on Rise time" data-original-title="Rise time" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">上升时间(计算得出) | 35纳秒 | 14毫微秒 | 7纳秒 | 5纳秒 | 3.5纳秒 | ||
| The number of bits in the data produced by the oscilloscope's analog-to-digital converter (ADC). An 8-bit oscilloscope can distinguish 256 different voltage levels. Resolution enhancement (see Enhanced vertical resolution below) can be used to increase the effective number of bits." data-original-title="Vertical resolution" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">垂直分辨率 | 8位 | ||||||
| Resolution enhancement is a digital filtering technique that can provide up to 4 bits of additional resolution (so improving the ability to see small changes in the waveform). Resolution enhancement provides similar results to waveform averaging, but has the advantage that it can be done with single-shot signals. More on Enhanced resolution" data-original-title="Enhanced resolution" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">增强的垂直分辨率 | 12位 | ||||||
| The maximum and minimum voltages that the oscilloscope can be set to measure. The PicoScope scope view has a grid with ten vertical divisions, so one division represents one tenth of the selected input range. For best accuracy and lowest noise, select the smallest input range that includes the signal you want to measure." data-original-title="Input ranges" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">输入范围 | ±50 mV,±100 mV,±200 mV,±500 mV,±1 V,±2 V,±5 V,±10 V,±20 V | ±20 mV,±50 mV,±100 mV,±200 mV,±500 mV,±1 V,±2 V,±5 V,±10 V,±20 V | |||||
| 输入灵敏度 (10个垂直格) | 10 mV / div至4 V / div | 4 mV / div至4 V / div | |||||
| Choose DC coupling for accurate measurement of DC voltage levels. In AC mode, the oscilloscope filters out all frequency components below about 1 hertz. This eliminates any DC offset in your signal, allowing you to make better use of the input range when you are interested only in the AC content of your signal." data-original-title="Input coupling" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">输入耦合 | 交流/直流 | ||||||
| 输入接头 | BNC(f) | ||||||
| 输入特性 | 1MΩ±1%∥15 pF±2 pF | 1MΩ±1%∥16 pF±1 pF | |||||
| 模拟偏移范围 (垂直位置调整) | 没有 | ±250 mV(20 mV至200 mV范围) ±2.5 V(500 mV至2 V范围) ±25 V(5 V至20 V范围) | |||||
| 模拟失调控制精度 | 不适用 | 基本直流精度以外的±1%失调设置 | |||||
| 直流精度 | 满量程的±3%±200μV | ||||||
| 过压保护 | ±100 V(DC + AC峰值) | ||||||
| 示波器-垂直(数字输入,MSO) | |||||||
|---|---|---|---|---|---|---|---|
| 输入通道 | 16个通道(2个端口,每个8个通道) | ||||||
| 输入接头 | 2.54 mm间距,10 x 2路连接器 | ||||||
| 输入频率 | 100 MHz(200 Mb /秒) | ||||||
| 最小可检测脉冲宽度 | 5纳秒 | ||||||
| 输入阻抗 | 200kΩ±2%∥8 pF±2 pF | ||||||
| 输入动态范围 | ±20 V | ||||||
| 数字阈值范围 | ±5 V | ||||||
| 过压保护 | ±50伏 | ||||||
| 阈值分组 | 两个独立的阈值控件:端口0:D0至D7,端口1:D8至D15 | ||||||
| 阈值选择 | TTL,CMOS,ECL,PECL,用户定义 | ||||||
| 端口阈值精度 | ±350 mV(包括磁滞) | ||||||
| 磁滞现象 | <±250毫伏 | ||||||
| 最小输入电压摆幅 | 500 mV峰峰值 | ||||||
| 通道间偏斜 | 2 ns(典型值) | ||||||
| 最小输入摆率 | 10 V /微秒 | ||||||
| 水平的 | |||||||
|---|---|---|---|---|---|---|---|
| 采样率(实时)* | 100 MS /秒 | 200 MS /秒 | 500 MS /秒 | 1 GS /秒 | |||
| Equivalent time sampling (ETS mode) is method of increasing the effective sampling rate of the scope. ETS builds a picture of a repetitive signal by capturing small parts of the waveform from successive triggered acquisitions. This allows PicoScope to accurately capture signals whose frequency components are much higher than the maximum sampling rate. More on Equivalent time sampling" data-original-title="Equivalent sampling rate (ETS mode)" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">等效采样率(ETS模式) | 2 GS /秒 | 4 GS /秒 | 5 GS /秒 | 10 GS /秒 | |||
| 采样率(In this mode, data is passed directly to the host PC with buffering provided by the PicoScope internal buffer memory. This enables long periods of slow data collection for chart recorder and data-logging applications as well as fast USB streaming. More on USB streaming mode" data-original-title="USB streaming mode" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">USB流) | 1 MS /秒 | 1 MS /秒 | 9.6 MS /秒 | ||||
| 最短的时基 | 10 ns / div | 5 ns /格 | 2 ns /格 | 1 ns / div | |||
| 最长的时基 | 5000 s / div(在图表记录器视图中,每个波形大约14小时) | ||||||
| 缓冲存储器(This is the default mode used by PicoScope software. The scope stores data in internal buffer memory, then processes it and transfers it to the PC before starting the next block." data-original-title="Block mode" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">块模式)* | 8 kS | 16 kS | 48 kS | 32毫秒 | 64毫秒 | 128毫秒 | |
| 缓冲存储器(In this mode, data is passed directly to the host PC with buffering provided by the PicoScope internal buffer memory. This enables long periods of slow data collection for chart recorder and data-logging applications as well as fast USB streaming. More on USB streaming mode" data-original-title="USB streaming mode" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">USB流模式) | 100 MS(活动通道之间共享) | ||||||
| Ever spotted a glitch on a waveform, but by the time you’ve stopped the scope it has gone? With PicoScope you no longer need to worry about missing glitches or other transient events. PicoScope can store the last ten thousand oscilloscope or spectrum waveforms in its circular waveform buffer. More on Waveform buffers" data-original-title="Waveform buffers" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">波形缓冲器 | 万 | ||||||
| An important specification to understand when evaluating oscilloscope performance is the waveform update rate, which is expressed as waveforms per second (wfms/s). While the sample rate indicates how frequently the oscilloscope samples the input signal within one waveform, the waveform capture rate refers to how quickly an oscilloscope acquires waveforms. More on waveform update rate" data-original-title="Maximum waveforms per second" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">每秒波形 | 2000 | 80 000 | |||||
| 初始时基精度 | ±100 ppm | ±50 ppm | |||||
| 时基漂移 | ±5 ppm /年 | ||||||
| 样品抖动 | 典型值为30 ps RMS | 20 ps RMS(典型值) | 3 ps RMS(典型值) | ||||
| ADC采样 | 同时 | ||||||
*采样率和缓冲存储器在活动通道之间共享。在MSO模型上,每组8个输入计数为一个通道。MSO数字通道上的采样率是500 MS / s。
| 动态性能(典型) | |||||||
|---|---|---|---|---|---|---|---|
| 串扰(全带宽,相等范围) | 优于200:1 | 优于300:1 | |||||
| 谐波失真 | <–50 dB,在100 kHz,满量程输入,典型值 | ||||||
| SFDR(100 kHz,满量程输入,典型值) | > 52分贝 | ±20 mV范围:> 44 dB ±50 mV范围及更高:> 52 dB | |||||
| 噪音 | <150μVRMS (±50 mV范围) | <220μVRMS (±20 mV范围) | <300μVRMS (±20 mV范围) | ||||
| 带宽平坦度 | 从DC到全带宽(+0.3 dB,–3 dB) | ||||||
| 触发方式 | |||||||
|---|---|---|---|---|---|---|---|
| 资料来源 | Ch A,Ch B,Ch C,ChD。任何MSO数字频道 | ||||||
| 触发方式 | 无,自动,重复,单次 | 无,自动,重复,单次,快速(分段内存) | |||||
| The PicoScope 6 software and PicoScope oscilloscopes have a number of advanced trigger types that enable you to capture a stable waveform even with complex signals. This makes them ideal for troubleshooting glitches, timing violations, overvoltages and dropouts in analog and digital circuits. More on advanced triggers" data-original-title="Advanced triggers" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">高级触发器 | 边沿,窗口,脉冲宽度,窗口脉冲 宽度,压差,窗口压差,间隔, 逻辑 | 边沿,窗口,脉冲宽度,窗口脉冲宽度,压差, 窗口压差,间隔,欠幅脉冲,逻辑 | |||||
| 触发类型,ETS | 上升或下降沿 | 上升沿或下降沿(仅在Ch A上可用) | |||||
| 实时触发灵敏度 | In 1991 Pico pioneered the use of fully digital triggering using the actual digitized data. This technique reduces trigger errors and allows our oscilloscopes to trigger on the smallest signals, even at the full bandwidth. Trigger levels and hysteresis can be set with high precision and resolution. More on advanced triggers" data-original-title="Advanced triggers" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">数字触发可提供高达全带宽的1 LSB精度 | ||||||
| 触发灵敏度,ETS | 满带宽时典型值为10 mV pp | ||||||
| 触发前捕获 | 捕获大小的100% | ||||||
| 触发后延迟 | 40亿个样本 | ||||||
| 在Rapid trigger mode allows you to segment the PicoScope buffer memory and make acquisitions to successive segments with minimum delay between each acquisition. As the scope does not communicate with the PC between captures, this reduces the gap from milliseconds to less than a few microseconds, at the fastest sampling rates. After capture of the number of requested segments set by the user the acquisition process halts and you can scroll through captured waveforms in the usual way using the buffer navigation buttons. " data-original-title="Rapid trigger mode" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">快速触发模式下触发重新准备时间 | 不适用 | <2μs(最快 时基) | <1μs(最快时基) | ||||
| 限度。Rapid trigger mode allows you to segment the PicoScope buffer memory and make acquisitions to successive segments with minimum delay between each acquisition. As the scope does not communicate with the PC between captures, this reduces the gap from milliseconds to less than a few microseconds, at the fastest sampling rates. After capture of the number of requested segments set by the user the acquisition process halts and you can scroll through captured waveforms in the usual way using the buffer navigation buttons. " data-original-title="Rapid trigger mode" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">快速触发模式下的波形 | 不适用 | 96 | 万 | ||||
| A function generator (signal generator) is an invaluable piece of test equipment. The output from a signal generator is a repeating waveform whose characteristics are set by the user. Signal generators can be used for research and development purposes, along with the servicing and repair of electronic equipment. More on signal generator" data-original-title="Function generator" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">函数发生器 | |||||||
|---|---|---|---|---|---|---|---|
| 标准输出信号 | 正弦波,方波,三角波,直流电压,斜坡,正弦波,高斯,半正弦波 | ||||||
| 伪随机输出信号 | 没有 | 白噪声,PRBS | |||||
| 标准信号频率 | 直流至100 kHz | 直流至1 MHz | |||||
| 扫描模式 | 上,下,双重,具有可选的开始/停止频率和增量 | ||||||
| 触发方式 | 没有 | 自由运行或多达10亿个波形周期或频率扫描。 从范围触发或手动触发。 | |||||
| 输出频率精度 | 示波器时基精度±输出频率分辨率 | ||||||
| 输出频率分辨率 | <0.02赫兹 | <0.01赫兹 | |||||
| 输出电压范围 | ±2 V | ||||||
| 输出调整 | ±2 V范围内的任何幅度和偏移 | ||||||
| 幅度平坦度(典型值) | <1 dB至100 kHz | <0.5 dB至1 MHz | |||||
| 直流精度 | 满量程的±1% | ||||||
| SFDR(典型) | 在1 kHz满量程正弦波时> 55 dB | 在10 kHz满量程正弦波时> 60 dB | |||||
| 输出特性 | 前面板BNC,600Ω输出阻抗 | ||||||
| 过压保护 | ±20 V | ||||||
| An arbitrary waveform generator (AWG) is used to generate electrical waveforms. The waveforms can be either repetitive or single-shot. An AWG can generate any arbitrarily defined waveshape as its output. The waveforms can be injected into a device under test and analyzed by the PicoScope as they progress through it, confirming proper operation of the device or pinpointing a fault in it. More on Arbitrary waveform generator" data-original-title="Arbitrary waveform generator" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">任意波形发生器 | |||||||
|---|---|---|---|---|---|---|---|
| 更新率 | 1.548兆赫 | 20兆赫 | |||||
| 缓冲区大小 | 4 kS | 8 kS | 32 kS | ||||
| 解析度 | 12位 | ||||||
| 带宽 | > 100 kHz | > 1兆赫 | |||||
| 上升时间(10%至90%) | <2μs | <120 ns | |||||
| The spectrum view plots amplitude vs frequency and is ideal for finding noise, crosstalk or distortion in signals. The spectrum analyzer in PicoScope is of the Fast Fourier Transform (FFT) type which, unlike a traditional swept spectrum analyzer, can display the spectrum of a single, non-repeating waveform. More on Spectrum analyzer" data-original-title="Spectrum analyzer" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">频谱分析仪 | |||||||
|---|---|---|---|---|---|---|---|
| 频率范围 | 直流到示波器的模拟带宽 | ||||||
| 显示方式 | 幅度,平均值,峰值保持 | ||||||
| 窗口功能 | 矩形,高斯,三角形,布莱克曼,布莱克曼·哈里斯,汉明,汉恩,平顶 | ||||||
| FFT点数 | 从128到一半的可用缓冲存储器中进行选择(以2的幂为单位),为1,048,576点 | ||||||
| On many oscilloscopes waveform math just means simple calculations such as A + B. With a PicoScope it means much, much more. With PicoScope 6 you can select simple functions such as addition and inversion, or open the equation editor to create complex functions involving filters (low pass, high pass, band pass and band stop filters), trigonometry, exponentials, logarithms, statistics, integrals and derivatives. More on Math channels" data-original-title="Math channels" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">数学通道和PicoScope's math channels can be used to apply a sliding-window filter to your signals. Four basic shapes of filter are available. More on Software filters" data-original-title="Software filters" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">软件过滤器 | |||||||
|---|---|---|---|---|---|---|---|
| 功能 | -x,x + y,x-y,x * y,x / y,x ^ y,sqrt,exp,ln,log,abs,norm,sign,sin,cos,tan,arcsin,arccos,arctan,sinh ,cosh,tanh,freq,微分,积分,最小值,值,平均值,峰值,延迟,占空比 | ||||||
| 软件过滤器 | 高通,低通,带通,带阻 | ||||||
| 操作数 | A,B(输入通道),C,D(输入通道,仅4通道型号),T(时间),参考波形,常数,pi,数字通道(仅MSO型号) | ||||||
| Making measurements in PicoScope is easy. A large number of measurements are possible thanks to the automated measurement system. Using the Measurements menu you can select what measurements you want PicoScope to make, and PicoScope will then automatically display a table of their values. More on Automatic measurements" data-original-title="Automatic measurements" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">自动测量 | |||||||
|---|---|---|---|---|---|---|---|
| 范围模式 | 交流RMS,真实RMS,频率,周期时间,占空比,DC平均,下降率,上升率,低脉冲宽度,高脉冲宽度,下降时间,上升时间,最小,,峰峰值 | ||||||
| 频谱模式 | 峰值频率,峰值幅度,THD dB,SNR,SINAD,SFDR, 总功率,峰值平均幅度,THD%,THD + N,IMD | ||||||
| 统计数据 | 最小,,平均和标准偏差 | ||||||
| Serial communication buses are used extensively in modern electronic designs. Serial buses offer significant cost advantages and some performance improvements over parallel bus communications. First, there are fewer signals to route on the board, so PCB costs are lower. Fewer I/O pins on each device are needed, which simplifies component packaging and so reduces component cost. Some serial buses use differential signalling which improves noise immunity. More on Serial decoding" data-original-title="Serial decoding" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">串行解码 | |||||||
|---|---|---|---|---|---|---|---|
| 规约 | 1-Wire,ARINC 429,CAN,CAN FD,DALI,DCC,DMX512,FlexRay,以太网10Base-T,USB 1.1,I²C,I²S,LIN,Manchester,MODBUS,PS / 2,SPI,SENT,UART / RS- 232(取决于所选示波器型号的带宽和采样率) | ||||||
| Mask limit testing allows you to compare live signals against known good signals, and is designed for production and debugging environments. Simply capture a known good signal, draw a mask around it, and then attach the system under test. More on Mask limit testing" data-original-title="Mask limit testing" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(43, 111, 169); text-decoration-line: none;" title="">面膜极限测试 | |||||||
|---|---|---|---|---|---|---|---|
| 面膜生成 | 数字(自动)或图形(手动) | ||||||
| 统计数据 | 通过/失败,失败计数,总数 | ||||||
| 掩码上的可用操作失败 | 提示音,播放声音,停止捕获,保存波形,触发信号发生器/ AWG,运行可执行文件 | ||||||
| 展示 | |||||||
|---|---|---|---|---|---|---|---|
| 插补 | 线性或sin(x)/ x | ||||||
| Advanced display modes allow you to collect thousands of waveforms per second. New or more frequent data can be displayed in a brighter color or shade. This makes it easy to see glitches and dropouts and to estimate their relative frequency. Choose between analog persistence, digital color, fast or custom display modes. More on Persistence modes" data-original-title="Persistence modes" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">持续模式 | 数字颜色,模拟强度,自定义,快速或无 | ||||||
| SDK / API详细信息和规范,供客户编写自己的软件 | |||||||
|---|---|---|---|---|---|---|---|
| 提供的驱动程序 | 适用于Windows 7、8和10 Linux驱动程序的32位和64位驱动程序 macOS驱动程序 | ||||||
| 范例程式码 | C,C#,Excel VBA,VB.NET,LabVIEW,MATLAB | ||||||
| USB流采样率* | 1 MS /秒 | 5 MS /秒 | 31 MS /秒 | ||||
| USB流模式下的缓冲存储器* | 仅受PC限制 | ||||||
| 分段内存缓冲区* | 不适用 | 96 | 128 000 | 256000 | 512 000 | ||
*这些规格在使用驱动程序/编写自己的软件时适用。使用PicoScope软件时,请参阅上面的“水平”部分
| 软件 | ||
|---|---|---|
| Windows软件 | 适用于Windows的PicoScope PicoSDK 软件开发套件(SDK)推荐 Windows 7、8或10 PicoScope R6.12 and later support Windows 7,8,8.1 and 10. Users of Windows XP (SP2) and Vista (SP2) can still download PicoScope R6.11 free of charge. PicoScope R6.11 is the last release that will support these older operating systems. " data-original-title="PicoScope for Windows" href="/oscilloscope/2000/picoscope-2000-specifications#" style="box-sizing: border-box; background-color: transparent; color: rgb(13, 99, 160); text-decoration-line: none;" title="">(了解更多信息) | |
| macOS软件 | 适用于macOS的PicoScope(测试版:功能列表) 软件开发套件(SDK) 操作系统版本:请参阅发行说明 | |
| Linux软件 | PicoScope Linux版(测试版:功能列表) 软件开发套件(SDK) 有关受支持的发行版的详细信息,请参见Linux软件和驱动程序。 | |
| 语言能力 | 中文(简体),中文(繁体),捷克语,丹麦语,荷兰语,英语,芬兰语,法语,德语,希腊语,匈牙利语,意大利语,日语,韩语,挪威语,波兰语,葡萄牙语,罗马尼亚语,俄语,西班牙语,瑞典语,土耳其语 | |
| 一般的 | |||||||
|---|---|---|---|---|---|---|---|
| 包装内容 | PicoScope 2000系列示波器 2或4个可切换的10:1/1:1示波器探头(购买时不带探头的PicoScope 2204A / 2205A除外) TA136数字电缆(MSO) 2×TA139包10个逻辑测试夹(MSO) USB电缆 快速入门指南 | ||||||
| PC连接 | USB 2.0(兼容USB 3.0 / 3.1)。 | ||||||
| 电源要求 | 由USB端口供电 | ||||||
| 尺寸 (包括连接器和支脚) | 142 x 92 x 18.8毫米 | 130 x 104 x 18.8毫米 | |||||
| 重量 | <0.2公斤(7盎司) | ||||||
| 工作温度范围 | 0°C至50°C | ||||||
| 工作温度范围,达到 规定的精度 | 15°C至30°C | ||||||
| 温度范围,储存 | –20°C至+60°C | ||||||
| 湿度范围,工作 | 5%至80%RH不凝结 | ||||||
| 湿度范围,储存 | 5%至95%RH不凝结 | ||||||
| 海拔范围 | 高达2000 m | ||||||
| 污染度 | 2个 | ||||||
| 安全认证 | 设计符合EN 61010-1:2010 | ||||||
| 环保认证 | RoHS,WEEE | ||||||
| EMC认证 | 经测试符合EN61326-1:2013和FCC Part 15 Subpart B | ||||||
| 支持的语言 | 简体中文,捷克语,丹麦语,荷兰语,英语,芬兰语,法语,德语,希腊语,匈牙利语,意大利语,日语,韩语,挪威语,波兰语,葡萄牙语,罗马尼亚语,俄语,西班牙语,瑞典语,土耳其语 | ||||||
| 保修单 | 5年 | ||||||
