詳細(xì)介紹
主要特點(diǎn)和優(yōu)點(diǎn)
主要性能指標(biāo)
線性穩(wěn)壓電源
高達(dá)72 V 輸出電壓
0.03% 基本電壓精度
0.05% 基本電流 精度
p-p 紋波和噪聲
提供的功能和特點(diǎn)
在明亮的顯示器上同時(shí)顯示輸出電壓、電流和極限
可以調(diào)節(jié)過壓保護(hù)
通過數(shù)字鍵盤直接輸入?yún)?shù)
最多存儲(chǔ)40 種用戶自定義設(shè)置
列表模式,逐步通過存儲(chǔ)的設(shè)置,執(zhí)行測試順序
遠(yuǎn)程傳感,補(bǔ)償引線電阻
連接
后面輸出和觸發(fā)/ 狀態(tài)線路
后面板上提供了USB 設(shè)備端口,快速連接PC,進(jìn)行遠(yuǎn)程編 程
包括National Instrument LabVIEW SignalExpressTM TE 限 定版軟件,連通測試平臺(tái)
寬電流和電壓范圍及靈活的功能使得PWS4000 系列電源成為 多功能工作臺(tái)儀器。由于0.03% 基本電壓精度和0.05% 基本 電流精度,您可以對電源輸出值樹立信心。遠(yuǎn)程傳感功能消除 了引線中電壓下跌造成的影響,p-p的噪聲進(jìn)一步保證了 準(zhǔn)確的功率測量結(jié)果。列表模式和遠(yuǎn)程編程使用的USB端口加 快了復(fù)雜測試的開發(fā)速度。PWS4000 系列電源迅速準(zhǔn)確地為 您的應(yīng)用提供了所需的處理能力。
全面控制輸出
PWS4000 系列所有型號(hào)都有一個(gè)過壓保護(hù)電路,在輸出電壓 因任何原因超過用戶門,會(huì)降低輸出電壓。PWS4000 系列還包括一種設(shè)置,允許防止電壓因意外調(diào)節(jié)超出極 限。
設(shè)置相應(yīng)電流極限對防止被測設(shè)備損壞至關(guān)重要。通過 PWS4000 數(shù)字鍵盤,您可以在開始測試前,迅速準(zhǔn)確地 電流極限。顯示屏上一直可以看到電流極限,讓您知道這種重 要設(shè)置。用戶自定義口令可以鎖住前面板,防止在關(guān)鍵測試過 程中發(fā)生不想要的調(diào)節(jié)。
專業(yè)設(shè)計(jì),讓您的工作更輕松
PWS4000 系列電源采用專門設(shè)計(jì),使用簡便,提供了您預(yù)期 泰克提供的熟悉操作。
直觀操作
旋轉(zhuǎn)旋鈕及用戶可選擇步長,可以簡便地檢查電路對電壓或電 流變化的響應(yīng)。直接輸入數(shù)字鍵盤簡化了設(shè)置精確電壓和電流 值的工作。
明亮的顯示器
明亮的真空熒光顯示器在遠(yuǎn)處、在斜角、或在光線暗時(shí)都能看 清屏幕上的內(nèi)容。用戶一直可以看清儀表讀數(shù)和極限,您不需 要按按鈕,就可以看到極限值。
設(shè)置存儲(chǔ)器
為在重復(fù)測試時(shí)節(jié)約時(shí)間,您只需按Save 按鈕,就可以把儀 器設(shè)置保存在40 個(gè)內(nèi)存位置的其中一個(gè)位置上。每次在您想 調(diào)用設(shè)置時(shí),您只需按Recall按鈕,選擇所需的設(shè)置就可以了。
加快復(fù)雜的測試開發(fā)速度
內(nèi)置列表模式允許為測試自定義的電壓和電流步長順序。 可以定義最多7個(gè)列表,每個(gè)列表可以有最多80個(gè)步長。列表 可以配置成在外部觸發(fā)或按前面板按鈕時(shí)逐步通過順序。也可 以每個(gè)步長的時(shí)長,儀器將自動(dòng)逐步通過順序。如需提高 靈活性,可以使用后面板上的USB設(shè)備端口,簡便地把電源連 接到PC 上,實(shí)現(xiàn)遠(yuǎn)程編程。
連通工作臺(tái),實(shí)現(xiàn)智能調(diào)試
您可以使用的編程環(huán)境,通過USBTMC 標(biāo)準(zhǔn)設(shè)備端口控 制PWS4000,還可以使用專用的泰克版National Instrument LabVIEW SignalExpressTM軟件,迅速獲得結(jié)果。每臺(tái) PWS4000系列電源都標(biāo)配免費(fèi)的限定版SignalExpress軟件, 提供了基本儀器控制、數(shù)據(jù)記錄和分析功能。選配的專業(yè)版軟 件提供了200種內(nèi)置功能,提供了更多的信號(hào)處理、高級(jí)分析、 掃描、極限測試和用戶自定義步驟功能。
Main features and advantages
Key performance indicators
Linear regulated power supply
Up to 72 V output voltage
Accuracy of basic voltage
Accuracy of basic current
P-p ripple and noise
Functions and features provided
The output voltage, current and limit are displayed on a bright display
Overvoltage protection can be adjusted
Input parameters directly through the numeric keypad
Up to 40 user-defined Settings are stored
List mode, step through the stored Settings, execute the test sequence
Remote sensing, compensating lead resistance
The connection
Later output and trigger/state lines
A USB device port is provided on the back panel for quick PC connection and remote programming
Including National Instrument LabVIEW SignalExpressTM TE limited edition software, connectivity test platform
Wide current and voltage ranges and flexible features make the PWS4000 series power supply a versatile bench instrument. You can build confidence in the power supply output due to the 0.03% basic voltage accuracy and 0.05% basic current accuracy. The remote sensing function eliminates the impact of voltage drop in the lead, and the p-p noise further ensures accurate power measurement results. The list mode and the USB port used for remote programming speed up the development of complex tests. The PWS4000 series power supply quickly and accurately provides your application with the processing power it needs.
Total control output
All models of the PWS4000 series have an overvoltage protection circuit that reduces the output voltage when the output voltage exceeds the user-specified threshold for any reason. The PWS4000 series also includes a setting that allows accidental voltage regulation to be prevented from exceeding a specified limit.
It is very important to set the corresponding current limit to prevent the damage of the equipment under test. With the PWS4000 numeric keypad, you can quickly and accurately specify the current limit before starting the test. The current limit can always be seen on the display screen, letting you know this important setting. User-defined passwords lock the front panel to prevent unwanted adjustments during critical test runs.
Professional design, make your work easier
The PWS4000 series power supply is specially designed and easy to use, providing the familiar operation you expect from tektronix.
Intuitive operation
By rotating the knob and selecting the step size, the response of the circuit to voltage or current changes can be easily checked. The direct input numeric keypad simplifies setting precise voltage and current values.
Bright display
Bright vacuum fluorescence displays can see clearly at a distance, at a bevel Angle, or in low light. The user can always see the meter reading and limit, you do not need to press the button, you can see the limit value.
Setup memory
To Save time during repeated tests, simply press the Save button to Save the meter Settings in one of the 40 memory locations. Each time you want to call the Settings, you just press the Recall button to select the Settings you need.
Speed up complex test development
The built-in list mode allows you to specify a custom order of voltage and current steps for your tests. You can define up to seven lists, each with up to 80 steps. Lists can be configured to step through the sequence when triggered externally or when the front panel button is pressed. The length of each step can also be specified, and the instrument will automatically step through the sequence. To increase flexibility, you can use the USB device port on the back panel to simply connect the power supply to a PC for remote programming.
Connect the workbench to realize intelligent debugging
You can use the preferred programming environment to control PWS4000 through the standard device port of USBTMC, and you can also use the special National Instrument version LabVIEW SignalExpressTM software to quickly get the results. Each PWS4000 series power supply is standard with free SignalExpress software, which provides basic instrument control, data recording and analysis functions. The optional pro software comes with 200 built-in features for more signal processing, advanced analysis, scanning, limit testing, and user-defined steps.