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    行業(yè)產(chǎn)品

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    廣州文明機電有限公司


    PicoScope 9000

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    產(chǎn)品簡(jiǎn)介

    如果你需要測量高速電信號,雙通道12 GHz 9000系列采樣示波器具有業(yè)界性?xún)r(jià)比!PicoScope9000只有同類(lèi)采樣示波器不到一半的價(jià)格,但擁有你需要的所有功能和性能。與其它供應商不同的是,我們所有軟件功能都包含在示波器的

    詳細介紹

    PicoScope 9000系列采樣示波器

    主要特點(diǎn):

    • 2通道12 GHz帶寬

    • 8GHz光電轉換器 (只是PicoScope 9221A和9231A)

    • 雙時(shí)基從10 ps/div開(kāi)始

    • 達到10 GHz觸發(fā)帶寬

    • 1 GHz full-function 直接觸發(fā)器

    • 5 TS/s等效采樣率

    • 內置2.7 Gb/s時(shí)鐘恢復 (不包括PicoScope 9201A)

    • 內置碼型同步觸發(fā) (不包括PicoScope 9201A)

    • 高分辨率游標和自動(dòng)波形統計學(xué)測量

    • 波形處理包括FFT

    • 時(shí)間和電壓柱狀圖

    • 眼圖測量用于NRZ和RZ

    • 自動(dòng)化波罩測試

    • USB 2.0

    • LAN(PicoScope 9211A和9231A)

    • 熟悉的Windows圖形用戶(hù)界面

    • 重量輕和高能效設計

     

    典型的應用包括:

    • 電子標準一致性測試

    • 半導體特性

    • 電信服務(wù)和生產(chǎn)

    • 定時(shí)分析

    • 數字系統設計和特性

    • TDR/TDT測量和分析(PicoScope 9211A和9231A)

    • 電子波罩繪圖和顯示

    • 自動(dòng)化合格/不合格限值測試

    • 高速串行總線(xiàn)脈沖響應

     

    產(chǎn)品系列通道數帶寬等效采樣率垂直分辨率PC 連接
    PicoScope 9201A212 GHz5 TS/s16 位USB 2.0
    PicoScope 9211A212 GHz5 TS/s16 位USB 2.0和LAN
    PicoScope 9221A212 GHz*5 TS/s16 位USB 2.0
    PicoScope 9231A212 GHz*5 TS/s16 位USB 2.0和LAN

    注釋?zhuān)?/strong>

    * 帶8 GHz光輸入

     

    PicoScope 9000 系列采樣示波器

    功能
     

    如果你需要測量高速電信號,雙通道12 GHz 9000系列采樣
    示波器具有業(yè)界性?xún)r(jià)比!







     

    12 GHz帶寬

    PicoScope 9200A采樣示波器采用順序采樣技術(shù)來(lái)測量快速重復信號而無(wú)需昂貴的實(shí)時(shí)采樣硬件。包含一個(gè)12 GHz 的輸入帶寬,使之能夠捕獲上升時(shí)間為50 ps或更快的信號。精確的時(shí)基穩定性和精度,和200 fs 的分辨率,允許大多數高要求應用項目中抖動(dòng)的特性。


    緊湊和輕便

    PicoScope 9200A 采樣示波器使用我們PC示波器的架構設計出一款緊湊又輕量的儀器,可輕松放入你的電腦包。


    10 GHz  prescaled 觸發(fā)

    PicoScope 9200A 采樣示波器有一個(gè)內置的高頻觸發(fā)器和頻率除法器。它的常規帶寬達到 10 GHz  可測量具有超快數據速率的微波器件。


    1 GHz全功能直接觸發(fā)

    該采樣示波器有一個(gè)內置的直接觸發(fā)器用于達到1 GHz重復率的信號而無(wú)需附加的觸發(fā)器。


    內置 2.7 Gb/s 時(shí)鐘恢復

    PicoScope 9211A, 9221A, 和 9231A 有一個(gè)專(zhuān)用的時(shí)鐘恢復觸發(fā)輸入用于串行數據12.3 Mb/s  至 2.7 Gb/s。


    脈沖參數測量

    PicoScope 9200A 采樣示波器可快速測量超過(guò)40個(gè)脈沖參數,所以你不需要數格子數和估算波形的位置。高達10個(gè)同時(shí)測量項或4個(gè)統計測量項可同時(shí)進(jìn)行。這些測量項符合 IEEE 標準。


    光轉電轉換器

    PicoScope 9221A 和 9231A 有一個(gè)內置的8 GHz的光電轉換器??捎糜诜治龉庑盘柪鏢ONET/SDH OC1 至 OC48, 光纖通道 FC133 至 FC4250, 和 G.984.2。該轉換器輸入接受單模式 (SM) 和多模式 (MM) 光纖,并且波長(cháng)范圍 750 至 1650 nm。

    Bessel-Thomson 濾波器可單獨購買(mǎi)。它用于特定光纖標準。


     

     

     

     

    強大的數學(xué)分析

    PicoScope 9000同時(shí)支持4個(gè)所采集波形的數學(xué)組合和函數轉換。

    你可以選擇任何數學(xué)函數作為一個(gè)運算符施予操作數。一個(gè)波形的數學(xué)運算符是一個(gè)數學(xué)函數,要求一個(gè)或者兩個(gè)源。包含兩個(gè)波形源的運算符是:加,減,乘和除。包含一個(gè)波形源的運算符是:反數,值,指數,對數,微分,積分,反函數,FFT,插值,光滑函數。觀(guān)看視頻 >

     

    柱狀圖分析

    柱狀圖是一個(gè)概率分布用于顯示所采集數據的分布,顯示在用戶(hù)自定義的柱狀圖視窗內。柱狀圖收集的信息被用于做統計分析。

    柱狀圖可以在波形上以垂直坐標或水平坐標構建。垂直柱狀圖于測量和描繪所顯示波形上的噪音,而水平柱狀圖最長(cháng)用于測量和描繪所顯示波形上的抖動(dòng)。觀(guān)看視頻 >

     

    眼圖分析

    PicoScope 9000系列快速測量超過(guò)30個(gè)基本參數用于繪制不歸零 (NRZ)信號和歸零 (RZ)信號的特性曲線(xiàn)??梢酝瑫r(shí)測量4個(gè)參數。觀(guān)看視頻 >


    波罩測試

    對于眼圖波罩,例如SONET和SDH標準所的哪些,PicoScope 9000支持在板波罩顯示以便可視化比較??娠@示灰度或色階以幫助分析眼圖上的噪音和抖動(dòng)。觀(guān)看視頻 >

     

    FFT分析

    所有PicoScope 9000系列采樣示波器都能用一系列開(kāi)窗函數對輸入信號進(jìn)行2個(gè)快速傅立葉變換。FFT特別適用于查找串擾問(wèn)題,查找非線(xiàn)性放大器引起的模擬波形上的失真問(wèn)題,調整濾波器電路用于過(guò)濾掉波形上的某些諧波,測試系統的脈沖響應,和識別與定位噪音和干擾源。觀(guān)看視頻 >

     

     

    碼型同步觸發(fā)和眼線(xiàn)模式

    PicoScope 9211A, 9221A 和 9231A 可內部生成一個(gè)碼型同步觸發(fā),由比特率,碼型長(cháng)度,和觸發(fā)分割率導出。使之能夠從任何特定的位或位群按順序創(chuàng )建一個(gè)眼圖。

    眼線(xiàn)模式適用于碼型同步觸發(fā)來(lái)隔離8個(gè)可能路徑中的任何一個(gè),稱(chēng)之為眼線(xiàn),信號可經(jīng)過(guò)整個(gè)眼圖。這使儀器能夠顯示平均的眼圖展現一個(gè)特定的眼線(xiàn)。觀(guān)看視頻 >


    軟件開(kāi)發(fā)包

    PicoScope 9000 軟件可用作一個(gè)獨立的示波器程序和一個(gè)ActiveX 控件。ActiveX 控件符合 Windows COM 模型,并且能夠嵌入你的軟件內。有Visual Basic (VB.NET), LabVIEW 和 Delphi的例程提供給你。但是任何支持COM標準的編程語(yǔ)言或標準都可使用,包括 JavaScript 和 C。

    我們提供全面的編程指導書(shū),詳細說(shuō)明了ActiveX 控件的每個(gè)功能。

    SDK 可通過(guò)USB或LAN口控制示波器。

    記?。耗阗徺I(mǎi) PicoScope 采樣示波器的錢(qián)已經(jīng)包含了所有這些 - 我們不會(huì )為軟件的功能或升級再收你的錢(qián)。

     

    9000 系列采樣示波器時(shí)域反射和時(shí)域透射測量和分析

    PicoScope 9211A和9231A TDR/TDT示波器專(zhuān)門(mén)用于時(shí)域反射(TDR)和時(shí)域透射(TDT)。它是一種低成本的測試方法,可測試線(xiàn)纜,連接器,電路板和IC包的不想要的反射和損耗。

    PicoScope 9211A和9231A 發(fā)射脈沖到所測試的設備內,使用它的兩個(gè)獨立的可編程的,100-ps上升時(shí)間階梯發(fā)生器中的一個(gè)。然后使用它的12 GHz采樣輸入,建立一個(gè)來(lái)自反射或者透射的脈沖的照片。結果可以顯示為伏特,歐姆或者rho對時(shí)間或者距離。

    下圖顯示PicoScope 9211A的TDR功能,用于分析一系列PCB間距5 mm上的via-holes。


    提示: 你購買(mǎi)PicoScope采樣示波器的價(jià)格包含所有功能 - 我們不會(huì )為軟件的功能或者升級再向你收費。

    注釋: 只是PicoScope 9211A和9231A才有TDR和TDT測量和分析功能。

    9000系列采樣示波器問(wèn)答
    如果你需要測量高速電信號,雙通道12 GHz 9000系列采樣
    示波器具有業(yè)界性?xún)r(jià)比!






    1. PicoScope 9200采樣示波器與常規數字存儲示波器有什么不同?

    2. PicoScope 9201A/9211A是一個(gè)數字信號分析儀(DSA)嗎?

    3. 實(shí)時(shí)采樣率和等效采樣率之間有什么不同?

    4. 我能把PicoScope 9201A/9211A用作常規測試和測量項目嗎?

    5. 直接觸發(fā)和HF觸發(fā)輸入之間有什么不同?

    6. 柱狀圖功能用來(lái)做什么?

    7. 這么低的價(jià)格是否還有其它費用?



    PicoScope 9200采樣示波器與常規數字存儲示波器有什么不同?

    All digital storage oscilloscopes (DSOs) work by sampling the input signal. The standard type of DSO uses “real-time sampling", which is illustrated in Fig. 1.

    Fig. 1 – Real-time sampling. (a) The original signal. (b) The scope samples the signal in several places. (c) The samples are stored in memory. (d) The scope reconstructs the signal using the stored samples. (Straight-line interpolation is shown here, but other methods exist.)

    A sampling oscilloscope is a special type of DSO that exclusively uses a technique called “sequential equivalent-time sampling" or just “sequential sampling". This type of sampling is best suited to repetitive waveforms such as serial data streams, clock waveforms and pulses in digital circuits, some of the data patterns used in semiconductor testing, and amplifier pulse-response and rise-time tests. A sampling scope captures just one sample from one cycle of the waveform and then repeats the process over a large number of cycles, varying the timing of the sample in a known pattern from one sample to the next. The resulting collection of samples is then assembled into a picture of the whole waveform.

    Fig. 2 – Sequential sampling. (a) One sample is taken from each of a number of similar waveforms. (b) The samples are assembled to form a composite waveform.

    The advantage of a sampling scope is that its analogue-to-digital
    converter (ADC) only needs to be fast enough to capture one
    sample in each cycle of the waveform, rather than the tens or
    hundreds of samples that a real-time scope would require. This
    allows the scope to capture waveforms with much higher
    bandwidths, up to 12 GHz in the case of the PicoScope 9201A/9211A,
    and to capture each sample with higher precision. A real-time
    DSO that could capture a single cycle of the same 12 GHz
    waveform would be prohibitively expensive. For example the
    12 GHz Agilent DSO91204A, with a real-time sample rate of
    40 GS/s, has a base price of $96,000 – 8 times the price of the
    PicoScope 9201A/9211A.

     

     

     

     



    PicoScope 9201A/9211A是一個(gè)數字信號分析儀(DSA)嗎?

    Yes. Some manufacturers use that term for sampling scopes that are aimed at the digital signal market. We chose to call the PicoScope 9201A/9211A a sampling oscilloscope because it can do more than just measure digital signals: it can also be used to analyse repetitive analogue waveforms.



    實(shí)時(shí)采樣率和等效采樣率之間有什么不同?

    The real-time sampling rate of an oscilloscope is the rate at which its ADC can reliably sample the input waveform. If you wish to capture a single event such as a one-off glitch in a digital circuit, then the oscilloscope has only one chance to acquire enough samples to represent the waveform accurately. In such cases, there is no substitute for an oscilloscope with a high real-time sampling rate. A common rule of thumb is that at least 10 samples are needed for each cycle of the waveform. For example, if the signal in question is a 2 GHz square wave, then a scope with a real-time sampling rate of at least 20 GS/s would be needed to capture a realistic-looking picture. For accurate analysis of the timing and shape of the waveform, as required in mask testing, several hundred samples are needed. This would entail a real-time sampling rate of 200 GS/s or more, which is beyond the capabilities of today's off-the-shelf instruments and, even if such a scope existed, it would be prohibitively expensive.

    The equivalent-time sampling (ETS) speed of a scope is not a measure of the speed of its ADC, but an estimate of the speed of an imaginary ADC that could capture a single-shot waveform at the same timebase, and with the same number of samples, as the sampling scope in question. If a sampling scope had perfectly accurate timing, then it could achieve an ETS rate as large as you wished just by waiting for the necessary number of cycles of the input waveform to pass by. In real life, however, the ETS rate of the scope is limited by the timing and trigger circuitry. The smaller the timing uncertainty (called jitter), the more non-overlapping samples the scope can take to form the final picture, and therefore the higher the equivalent-time sampling rate. Thanks to its low jitter, the PicoScope 9201A/9211A has a maximum ETS rate of 5 TS/s.

    Many of today's DSOs list both real-time and equivalent-time, or sequential, sampling rates in their specifications. When choosing an oscilloscope, you need to make sure that both sampling rates are adequate for your application.



    我能把PicoScope 9201A/9211A用作常規測試和測量項目嗎?

    The PicoScope 9201A/9211A is not intended to replace the general-purpose oscilloscope on your workbench. The main differences between the PicoScope 9201A/9211A and a general-purpose scope are as follows:

    • SMA input connectors . General-purpose scopes usually have BNC connectors on their inputs, but these connectors do not have a well-defined impedance above about 2 GHz. SMA connectors are better suited to high-frequency signals and are widely used in microwave applications.

    • 50 ohm inputs . The PicoScope 9201A/9211A has low-impedance inputs that do not work with passive high-impedance scope probes but work well with low-impedance probes. The low input impedance is necessary to match the scope to standard high-frequency signal cables and connectors without causing reflections. Most instruments designed for signals above about 500 MHz have input and output impedances of 50 ohms.

    • ±2 volt safe input range . The sensitive, high-bandwidth input circuitry of the PicoScope 9201A/9211A does not allow the same wide range of input voltages as found on a general-purpose scope. If your signal is larger than ±1 volt (the maximum measuring range) then you must use an external attenuator. You must also protect the inputs against electrostatic discharges.

    • 100 kS/s real-time sampling . The PicoScope 9201A/9211A is not designed to be used as a real-time sampling oscilloscope. Its precision ADC is optimised for equivalent-time sampling with very low jitter, allowing an equivalent-time sampling rate of up to 5 TS/s for repetitive signals.

    • Dedicated software . The software supplied with the PicoScope 9201A/9211A is designed to work only with sampling oscilloscopes. It contains advanced display features such as eye diagrams and histograms, and specialised measurements and industry-standard mask tests that do not apply to real-time oscilloscopes. This software is very different from PicoScope 6, our general-purpose oscilloscope software, in both appearance and function, and data files cannot be exchanged between the two programs.



     

    直接觸發(fā)和HF觸發(fā)輸入之間有什么不同?

    The Direct Trigger is a full-function trigger input with a bandwidth of 1 GHz, and is applied
    directly to the trigger circuitry. This input allows variable slope, hysteresis and trigger level.
    The HF Trigger input passes through an internal prescaler before being applied to the trigger
    circuitry. This input has a higher bandwidth, up to 10 GHz, but lacks the adjustments available
    on the Direct Trigger input.



     


    Fig. 3 – Histogram. A vertical histogram shows the signal density as a function of voltage, and helps to visualise noise.

    柱狀圖功能用來(lái)做什么?

    The PicoScope 9201A/9211A can collect large numbers of waveforms
    and perform statistical analysis on them. The results of the
    analysis can be displayed as histograms against voltage
    (vertical histograms) or time (horizontal histograms).
    A vertical histogram shows how much time the signal spends
    at each voltage level, and is useful for visualising RMS
    noise and noise margins; while a horizontal histogram
    shows how fast the signal voltage changes during each
    time interval, and shows RMS jitter and timing margins.
    Histograms help you to visualise the quality of your signal,
    but if you prefer you can also get statistics in numerical
    form by using the built-in statistics functions.
     

     

     



    這么低的價(jià)格是否還有其它費用?

    There are no hidden extra costs. When you buy a PicoScope 9201A/9211A, you get a complete system: the front-end hardware to plug into your USB port, a mains power adapter, and Windows-based software for your PC. You just provide the computer. You also get valuable extra services: free, time-unlimited support from our technical specialists, and free software updates for as long as we continue to support the product.

    Of course, every lab needs more than just a scope. You will need cables, connectors, and possibly coaxial splitters and attenuators, but these are all application-specific and you are likely to have them on your shelf anyway. To keep costs down, the PicoScope 9201A/9211A kit does not include probes, which are not needed if you have a 50-ohm signal source.

    9000系列采樣示波器參數

     
    如果你需要測量高速電信號,雙通道12 GHz 9201A/9211A采樣
    示波器具有業(yè)界性?xún)r(jià)比!





     
    通道 (垂直)
    通道數2 (同時(shí)采集)
    帶寬
    Full
    Narrow

    DC to 12 GHz
    DC to 8 GHz
    脈沖響應上升時(shí)間
    Full bandwidth
    Narrow bandwidth
    10% to 90%, calculated from Tr - 0.35/BW
    29.2 ps
    43.7 ps
    RMS 噪音,
    Full bandwidth
    Narrow bandwidth
    With averaging

    2 mV
    1.5 mV
    100 µV system limit
    標度因數(靈敏度)2 mV/div to 500 mV/div.
    1-2-5 sequence and 0.5% fine increments
    名義輸入阻抗(50 ±1) Ω
    輸入接頭SMA (F)

     
    時(shí)基 (水平)
    時(shí)基10 ps/div to 50 ms/div(main, intensified, two delayed, or dual delayed)
    Delta 時(shí)間間隔精度
    For horizontal scale > 450 ps/div

    For horizontal scale = 450 ps/div

    ±0.2% of Delta Time Interval ±15 ps at a temperature within ±3 °C of horizontal calibration temperature. 
    ±15 ps or ±5% of Delta Time Interval ±5 ps, whichever is smaller at a temperature within ±3°C of horizontal calibration temperature.
    時(shí)間間隔分辨率200 fs  minimum

     
    觸發(fā)
    觸發(fā)源External direct trigger, external prescaled trigger, internal clock trigger, clock recovery trigger (not 9201A)
    直接觸發(fā)帶寬和靈敏度
    DC to 100 MHz
    100 MHz to 1 GHz


    100 mV p-p
    Increasing linearly from 100 mV  p-p to 200 mV  p-p
    預定標觸發(fā)帶寬和靈敏度
    1 to 7 GHz
    7 to 8 GHz
    8 to 10 GHz typical


    200 MV  p-p to 2 V  p-p
    300 mV  p-p to 1 V  p-p
    400 mV  p-p to 1 V  p-p
    觸發(fā) RMS 抖動(dòng), 4 ps + 20 ppm of delay setting

     
    數據采集
    ADC 分辨率16 位
    數字化率DC to 200 kHz  maximum
    采集模式Sample (normal), average, envelope
    數據記錄長(cháng)度32 to 4096 points maximum per channel in x2 sequence

     
    顯示
    顯示分辨率Variable
    顯示類(lèi)型Dots, vectors, variable or infinite persistence, variable or infinite grey scaling, variable or infinite colour grading

     
    測量和分析
    標記Vertical bars, horizontal bars (measure volts) or waveform markers (x and +)
    自動(dòng)化測量Up to 40 automatic pulse measurements
    柱狀圖Vertical or horizontal
    數學(xué)Up to four math waveforms can be defined and displayed
    FFTUp to two fast Fourier transforms can be run simultaneously with the built in filters (rectangular, Nicolson, Hann, flat-top, Blackman-Harris and Kaiser-Bessel)
    眼圖Automatically characterises NRZ and RZ eye patterns. Measurements are based on statistical analysis of the waveform.
    波罩測試Acquired signals are tested for fit outside areas defined by up to eight polygons. Standard or user-defined masks can be selected.

     
    時(shí)鐘復原和碼型同步觸發(fā) (只是 PicoScope 9211A)
    時(shí)鐘復原靈敏度
    12.3 Mb/s to 1 Gb/s
    1 Gb/s to 2.7 Gb/s

    50 mV  p-p
    100 mV  p-p
    Continuous rate
    碼型同步觸發(fā)10 Mb/s to 8 Gb/s with pattern length from 7 to 65,535 max.
    復原時(shí)鐘RMS觸發(fā)抖動(dòng),1 ps  + 1.0% of unit interval
    安全觸發(fā)輸入電壓±2 V (DC + peak AC)
    觸發(fā)輸入接頭SMA (F)

     
    信號發(fā)生器輸出 (只是 PicoScope 9211A 和 9231A)
    上升/下降時(shí)間100 ps  (20% to 80%) typical
    模式Step, coarse timebase, pulse, NRZ, RZ

     
    光電 (O/E) 轉換器 (PicoScope 9221A 和 9231A)
    Unfiltered bandwidthDC to 8 GHz  typical.
    DC to 7 GHz  guaranteed at full electrical bandwidth
    Effective wavelength range750 nm  to 1650 nm
    Calibrated wavelengths850 nm (MM), 1310 nm (MM/SM), 1550 nm (SM)
    Transition time10% to 90% caluclated from Tr - 0.48 / BW: 60 ps max.
    RMS noise, maximum4 µW (1310 and 1550 nm), 6 µW (850 nm)
    Scale factors (sensitivity)1 µV/div to 400 µV/div (full scale is 8 divisions)
    DC accuracy, typical±25 µW ±10% of vertical scale
    Maximum input peak power+7 dBm  (1310 nm)
    Fiber inputSingle-mode (SM) or multi-mode (MM)
    Fiber input connectorFC/PC
    Input return loss
    SM
    MM

    -24 dB, typical
    -16 dB, typical; -14 dB, maximum

     
    PC要求
    處理器Pentium-class processor or equivalent
    存儲器256 MB
    硬盤(pán)空間PicoScope 9000 software requires aproximately 30 MB
    操作系統32-bit edition of Windows XP (SP2 or above), 32- or 64-bit edition of Windows Vista or Windows 7
    接口USB 1.1 compliant port minimum.
    USB 2.0 compliant port recommended.

     
    環(huán)境
    操作環(huán)境
    溫度范圍

    濕度

    +5 °C to +35 °C for normal operation
    +15 °C to 30 °C for quoted accuracy
    Up to 85% RH, non-condensing, at +25 °C
    存放環(huán)境
    溫度范圍
    濕度

    -20 °C to +50 °C
    Up to 95% RH, non-condensing

     
    物理值
    外觀(guān)尺寸170 x 255 x 40 mm (6.7 x 10.0 x 1.6 in)
    重量1.1 kg (2.3lb)

     
    軟件
    PicoScope 9000 for WindowsPicoScope 9000 software is capable of many advanced features such as mathematical analysis, histogram analysis, eye-diagram analysis and mask testing. All features are included as standard. Updates can be downloaded for free.
    Software development kitThe SDK allows you to control the scope from your own program. The software can act as an ActiveX COM server, allowing any program to send commands to it using a standard Windows protocol. This is ideal for production-test environments where multiple scopes need to be controlled from a single PC, or where automated tests need to be run. The SDK contains full documentation and example code for various programming languages.

     
    支持語(yǔ)言
    Documentation
    User’s guide
    Quick start guide
    Programmer’s guide

    English 
    English
    English

     
    常規
    Additional hardware (supplied)2 x SMA M-F connector savers (supplied fitted to scope)
    Additional SMA M-F connector saver (9221A and 9231A only)
    TDR Accessory Kit (PicoScope 9211A and 9231A only)
    LAN patch and crossover cables (9211A and 9231A only)
    USB 2.0 cable
    AC adaptor
    Tough carry case
    TDR Accessory Kit contents
    (supplied with PicoScope 9211A and 9231A only)
    30 cm  precision cable
    80 cm  precision cable
    0 Ω  short
    50 Ω  terminator
    Coupler
    Resistive power divider
    SMA wrench
    PC connectionUSB 2.0 (USB 1.1 compatible)
    LAN connection10/100 Mb/s (PicoScope 9211A and 9231A only)
    Power supply
    PicoScope 9201A
    PicoScope 9211A
    PicoScope 9221A
    PicoScope 9231A
    AC adaptor

    +6 V DC ±5%. @ 1.9 A  max
    +6 V DC ±5%. @ 2.6 A  max
    +6 V DC ±5%. @ 2.3 A  max
    +6 V DC ±5%. @ 2.9 A  max
    Mains adaptor supplied for USA, UK, Europe and Australasia
    ComplianceFCC (EMC), CE (EMC and LVD)
    Total Satisfaction GuaranteeIn the event that this product does not fully meet your requirements you can return it for an exchange or refund. To claim, the product must be returned in good condition within14 days.
    Warranty2 years (1 year for input sampler)

     
    Ordering Information
    ModelPicoScope 9201APicoScope 9211A
    Cat numberPP463PP473
    Lead timeIn stockIn stock

    ModelPicoScope 9221APicoScope 9231A
    Cat numberPP654PP664
    Lead timeIn stockIn stock

     

    9000系列采樣示波器附件

    如果你需要測量高速電信號,雙通道12 GHz 9201A/9211A采樣



    下列附件特別適用于PicoScope 9200采樣示波器。(它們也適用于其它帶SMA輸入接頭的高頻示波器)

    TA061: 1.5 GHz 示波器探頭 x10

    Features:

    • Small size - 2.5 mm diameter at the probe tip

    • New IC contact system for 0.5 to 1.27 mm pitch

    • Interchangeable spring contact tip

    • Ideal for measurements of SMT components

    • Coaxial design

    • Low input capacitance

    TA061 Specifications
    Connector typeSMA
    Attenuation10:1
    Input resistance500 Ω
    Input capacitance2 pF
    Input coupling of the measuring instrument50 Ω
    System bandwidth (-3 dB)1.5 GHz
    Risetime (10% - 90%)240 ps
    Rated voltage12 V DC incl AC pk
    Cable length1.3 m (approx 4 ft 3 in)
    Weight (probe only)48 g (approx 1.7 oz)
    Operating temperature0 °C to +50 °C
    Storage temperature-40 °C to +71 °C

    A range of kits containing accessories and spare parts for the TA061 are available.

     TA064 spring contact tipsTA065 advanced accessory kitTA066 basic accessory kitTA067 standard accessory kitTA068 solid probe tips
    Coding rings (set) 3x4 colours
    1


    Ground blade 2.5
    1


    Ground lead 15 cm
    111
    Ground spring 2.5
    1


    IC-Cap 2.5 0.5 mm pitch; green
    1

    &nb, sp;
    IC-Cap 2.5 0.65 mm pitch;, blue
    1


    IC Cap 2.5 0.8 mm pitch; grey ,1


    IC Cap 2.5 1.0 mm pitch; brown
    1


    IC Cap 2.5 1.27 mm pitch; black
    1


    Insulating cap 2.5
    1
    1
    PCB adapter kit 2.5
    1


    Self-adhesive Cu pad 2 x 2 cm
    2


    Solid tip Cu, Be 0.5 mm
    1115
    Spring tip gold plated 0.5 mm5111
    Sprung hook 2.5
    111

     ,

    TA077: 3dB SMA-SMA Attenuator

     

     

     

    Typical performance:
    Frequency (MHz)Attenuation (dB)Return loss (dB)
    0.033.0256.17
    50.003.0052.32
    100.003.0046.96
    500.003.0536.37
    1000.003.1032.48
    2000.003.1931.52
    3000.003.3135.67
    4000.003.4326.35
    5000.003.5819.50
    6000.003.8115.77

     

    TA078: 6dB SMA-SMA Attenuator

    Typical performance:

    Frequency (MHz)Attenuation (dB)Return loss (dB)
    0.036.0647.85
    50.006.0152.94
    100.006.0247.09
    500.006.1038.55
    1000.006.1534.41
    2000.006.2334.50
    3000.006.3339.05
    4000.006.3924.30
    5000.006.5218.08
    6000.006.9414.73

     

    TA140: 10 dB  SMA–SMA Attenuator

    Features:

    • DC to 6,000 MHz

    • 50 Ω, 1 W

    • RoHS compliant

    Typical performance:

    Frequency (MHz)Attenuation (dB)VSWR(:1)
    0.0310.061.00
    50.0010.011.01
    100.0010.021.00
    500.0010.061.01
    1000.0010.061.02
    2000.0010.011.03
    3000.009.891.07
    4000.009.601.19
    5000.009.511.31
    6000.009.691.50

     

    TA141: 20 dB  SMA–SMA Attenuator

    Features:

    • DC to 6,000 MHz

    • 50 Ω, 0.5 W

    • RoHS compliant

    Typical performance:

    Frequency (MHz)Attenuation (dB)VSWR(:1)
    0.0320.081.01
    20.0020.031.00
    50.0020.011.00
    100.0020.021.00
    500.0020.111.00
    1000.0020.211.01
    2000.0020.321.06
    3000.0020.101.11
    4000.0019.531.17
    5000.0018.631.24

     

     

    TA079: 4.2GHz 2 Way-0° Power Splitter/Combiner

    Features:

    • Very wideband, DC to 4200 MHz

    • Low insertion loss, 0.1 dB typical

    • Excellent amplitude unbalance, 0.02 dB typical

    • Rugged shielded case

    TA079 Specifications
    Frequency rangeDC to 4200 MHz
    Isolation
    DC to 100 MHz
    100 MHz to fu/2
    fu/2 to fu

    6.2 dB Typical
    6.5 dB Typical
    7.0 dB Typical
    Insertion loss
    DC to 100 MHz
    100 MHz to fu/2
    fu/2 to fu
    Typical
    0.1 dB
    0.1 dB
    0.4 dB
    Maximum
    0.2 dB
    0.5 dB
    1.4 dB
    Phase unbalance
    DC to 100 MHz
    100 MHz to fu/2
    fu/2 to fu

    1° maximum
    3° maximum
    5° maximum
    Amplitude unbalance
    DC to 100 MHz
    100 MHz to fu/2
    fu/2 to fu

    0.1 dB maximum
    0.2 dB maximum
    0.5 dB maximum
    Impedance50 Ω
    Operating temperature-55 °C to 100 °C
    Storage temperature-55 °C to 100 °C
    Power input (as a splitter)750 mW maximum
    Internal dissipation375 mW maximum
    ComplianceRoHS compliant

    Note: fu = upper frequency.

     

    Bessel–Thomson Reference Receiver Filters

    • For use with the optical–to–electrical converter on the PicoScope 9221A and 9231A

    • Reduces peaking and ringing

    • Choice of filter depends on the bit rate of the signal under analysis

    Cat NoBit Rates
    TA12051.8 Mb/s  (OC1/STM0)
    TA121155 Mb/s  (OC3/STM1)
    TA122622 Mb/s  (OC12/STM4)
    TA1231.250 Gb/s  (GBE)
    TA1242.488 Gb/s  (OC48/STM16) /
    2.500 Gb/s  (Infiniband 2.5G)


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