취리히 인스트루먼트 MFIA는 디지털 임피던스 분석기 및 정밀 LCR 미터로, DC ~ 5 MHz의 주파수 범위에서 임피던스 측정을 위한 새로운 표준을 설정합니다. MFIA는 0.05 % 기본 정밀도 및 1mΩ ~ 1TΩ 범위의 측정 범위를 제공합니다. 이 계측기는 높은 측정 반복성 및 작은 온도 편차를 가지고 있습니다. LabOne® 사용자 인터페이스 MFIA는 소프트웨어 설치가 없어도 사용할 수 있는 임피던스 및 LCR 측정을 위한 수많은 혁신적인 기술을 제공합니다.
MFIA 주요 특징
MFIA 개요 비디오
MFIA Q & A
전면 패널 인터페이스
The front panel of the MFLI features 1 current signal input, 1 differential voltage input, 1 differential signal output, 2 auxiliary inputs that can work as reference inputs, and 4 auxiliary outputs. Both signal inputs and outputs can be operated in single-ended and differential mode for experiments that require extra immunity from noise disturbances. The signal ground can be referenced either to the instrument ground or the BNC shield of the signal inputs.
후면 패널 인터페이스
The back panel offers more BNC connectors comprising 2 trigger inputs, 2 trigger outputs and 1 input and 1 output for 10 MHz clock synchronization. Moreover, a SCSI connector offers access to all DIO channels. The units can be operated with standard 90 - 240 V mains supply or by an external 12 V DC power supply, e.g. from an external battery pack, in order to break up ground loops.
높은 반복성, 신속한 시동
Temperature changes of the instrument can severely limit start-up speed and measurement repeatability. The MFIA performs exceptionally well in both aspects as can be seen from the start-up drift graph shown above and the reactance chart at the bottom of the page. You can start the first measurements after only 25 s from powering on the instrument.
테스트 픽춰 및 추가 인터페이스
The best measurement results can be obtained by using the MFITF Test Fixture. Both the test fixtures and the carriers are designed to introduce minimal parasitics and damping. However, the instrument is made to be fully compatible with other commercially available test fixtures and impedance setups. Auxiliary Outputs and Inputs provide and receive additional control signals to the DUT or analog feedback to other instrumentation. DIO connectors and Trigger ports enable measurement methods that require precise synchronization with other parts of the setup.
전압 및 전류 측정
Voltage measurements and current measurements are both supported by the MFIA. The analog front-end features variable input impedance as well as AC/DC coupling selection and the high-frequency analog to digital sampling provides a large oversampling factor, ensuring superior lock-in performance and high signal fidelity for the Scope.
LabOne 임피던스 툴셋
The MFIA comes with LabOne instrument control software and runs an embedded data and web server that provide the graphical user interface to any web browser. Simply add the MFIA by ethernet into your local network or connect directly by USB, type the instrument address into your web browser, and you have access to the LabOne tool set. Data from each tool can be stored as vector graphics or a plain data file with a single mouse click. For further analysis in other software, ZView®, MATLAB® as well as customized CSV export file formats are supported. Basic cursor and statistical functions are available for an initial data analysis in time domain or frequency domain as well.
파라메트릭 스위퍼(Parametric Sweeper)
The Sweeper enables the user to automate measurements by scanning instrument parameters over a defined range with a freely adjustable number of scan steps, either linearly or logarithmically. Most importantly, the recording of frequency dependence as well as the variation of bias voltages or test signal amplitudes can be easily automated. A variety of application modes help the user to measure with the optimal settings and get the most accurate results in a minimum of measurement time without tedious manual tweaking.
The example above shows a frequency sweep from 100 Hz to 5 MHz of a 1 GΩ resistor in a dual-plot representation. The top plot shows the absolute value of the impedance |Z| and the resistance Rp. The bottom plot shows the measurement of the stray capacitance Cp staying constant at about 30 fF over the entire scan range. A free choice of additional parameters can be visualized at the same time.
The Numerical tool displays all measurement values and model parameters in a user configurable format. You can decide which parameters matter most and display only what is relevant for your work. Each impedance unit allows simultaneous viewing of the impedance value as well as the underlying current and voltage measurements plus the model based derived parameters (L,C,R, etc.).
플로터(Plotter) 및 SW 트리거
The Plotter and Software Trigger are tools to analyze measurement data and model parameters in the time domain. The Plotter can display multiple data streams continuously. For a window length of 10 s the time resolution goes down to 10 μs. The Software Trigger captures and displays individual shots based on numerous different internal and external trigger conditions.
The LabOne Plotter displays your impedance data continuously. The plot above shows data from a 100 mΩ resistor over 20 min. The histogram indicates a standard deviation of only 6 µΩ
All measurement data pass a confidence estimation before being presented to the user in the different tools. Whenever the measurement is compromised by either suppression, gain error, compensation error, etc. a warning flag is raised and the user is informed that the data might be inaccurate. Depending on the type of warning, suggestions are made in order to improve the result.
In order to achieve high measurement accuracy, parasitic effects caused by the test fixture or cabling between the instrument and the device under test (DUT) need to be compensated. The LabOne Compensation Advisor provides users with step-by-step guidance and an efficient workflow to achieve maximum measurement performance. In addition to Short-Open (SO) and Short-Open-Load (SOL) compensation, a variety of other compensation schemes are offered. Each compensation step is validated and feedback provided to the user before the data is taken to correct for measurement errors.
MFIA 및 MF-IA 임피던스 사양
정확도 및 측정 범위
The reactance chart presented below indicates the instrument accuracy for certain frequency and impedance values. In the wide core area indicated in white, a 0.05% accuracy is specified between 1 mHz and 500 kHz, and 1 Ω and 1 MΩ (with limitations towards higher frequencies). The measurement range extends further with reduced specified accuracy of 0.1% and 1% to cover a measurement range from 10 mΩ to 1 GΩ. Even outside this range repeatable measurements are possible but accuracy might drop below 1%.
Measuring high impedances at low frequencies can be particularly challenging when values have to be obtained close to the line frequency. Adequate sample shielding along with a sinc-filter and the possibility for battery operation will give you the most accurate results.
|치수||28.3 x 23.2 x 10.2 cm; 11.1 x 9.2 x 4 inch|
|무게||3.8 kg; 8.4 lbs|
|파워 서플라이||AC: 100 ~ 240 V; DC: 12 V, 2 A|
|인터페이스||USB 2.0, LAN 1GbE|
|주파수 범위||DC ~ 5 MHz|
|주파수 해상도||1 µHz|
|기본 정확도||0.05% (10 Hz ~ 500 kHz)|
|기본 온도 안정||200 ppm/K|
|테스트 신호 레벨||0 V to 2.1 Vrms; incl. monitoring|
|복조기 대역폭||276 µHz to 206 kHz|
|DC 바이어스(bias) 신호 레벨||2T: ±10 V, 4T: ±3 V|
|보상||SO, SOL, LLL, SL, L, OL|
측정 파라미터, 범위 및 일반 정확성
|임피던스 Z||1 mΩ to 10 GΩ, 0.05%|
|어드미턴스 Y||1 mΩ ~ 10 GΩ, 0.05%|
|전압 V||0 V ~ 3 V, 1%|
|전류 I||0 mA ~ 10 mA, 2%|
|위상 ΘZ, ΘY, ΘV, ΘI||±180 deg, 10 µdeg res.|
|저항 RS, RP||1 mΩ to 10 GΩ, max(10 µOhm, 0.05%) 1|
|캐패시턴스 CS, CP||10 fF to 1 F, max(10 fF, 0.05%) 1|
|인덕턴스 LS, LP||100 nH to 1 H, max(10 nH, 0.05%) 1|
|DC 저항 RDC||1 mΩ ~ 10 GΩ, 2%|
|리액턴스 X||1 mΩ to 10 GΩ, 0.05%|
|컨덕턴스 G, 서셉턴스 B||1 nS to 1 kS, max(100 nS, 0.05%)|
|손실 계수 D||10-4 to 10'000|
|Q 인자||10-4 to 10'000|
1정확도는 매개 변수가 회로 표현의 우세한 값인 경우에 유효합니다.
|Sweep 파라미터||frequency, test signal amplitude, bias voltage, etc.|
|Sweep 포인트||2 to 100'000|
|Sweep 해상도||arbitrary, defined by start value, stop value and number of sweep points|
|파라미터 표시||ZX, ZY, Z, ZΘ, VX, VY, VR, VΘ, IX, IY, IR, IΘ, model parameter 1/2, frequency, Auxiliary Input|
|표시 옵션||단일 plot, 이중 plot ( 보드Bode plots), 멀티 트레이스|
|어플리케이션 모드||임피던스, 주파수 응답 분석기, 3-omega등|
|Sweep 모드||순차, 바이너리, 양방향, 역방향|
|Sweep 스텝 모드||선형, 대수|
|Sweep 속도||f > 10 kHz의 경우 20 ms/pt|
추가 도구 및 기능
|LabOne 툴셋||수치적, 스펙트럼 분서기, 플로터, SW 트리거, 오실로스코프|
|APIs||C, MATLAB, LabVIEW, Python|
|신뢰 지표||억제(suppression), 보상(compensation), 오버플로우(overflow), 언더플로우(underflow)|
|입력 범위 제어||자동, 임피던스, 수동|
|테스트 신호 진폭||자동, 수동|
|대역폭 제어||자동, 수동|
|교체 회로 모델||Rp||Cp, Rs+Cs, Rs+Ls, G-B, D-Cs, Q-Cs, D-Ls, Q-Ls|
|테스트 픽춰 호환성||yes|