簡介
GHFLI
- 頻率範圍:DC - 1.8 GHz
- 最短解調時間常數:14 ns
- 2 個獨立鎖相單元,配置信號產生器
- 每個鎖相單元配置 4 個獨立解調器
- 4 個高速輔助輸出埠和 4 個高精度輔助輸出埠
- LabOne® 工具集
簡介
瑞士蘇黎世儀器公司的 GHFLI 鎖相放大器將這類產品的優勢(雜訊抑制、相位靈敏度、頻率追蹤等)延伸到工作頻率高達 1.8 GHz 的應用。
GHFLI 包含兩個用作獨立鎖相放大器的物理通道。 每個通道均配備 4 個支援並行多諧波和多頻率分析的雙相解調器,以及一個用於生成驅動和參考信號的 6 GSa/s 信號產生器。 解調濾波器經過調整可以在雜訊抑制和測量速度之間達到最佳平衡。 USB 和千兆乙太網數位介面能夠以高達 4 MSa/s 的速率將數據連續傳輸到電腦,而 4 個高速輔助輸出埠和 4 個高精度輔助輸出埠可以通過自定義縮放和偏置將測量結果轉換為模擬信號,與其他儀器進行整合。
GHFLI 包括 LabOne® 控制軟體,藉助其圖形使用者介面,可以輕鬆方便地進行設置。 通過該軟體,使用者可以對包括鎖相放大器、具備快速傅里葉轉換 (FFT) 的雙通道示波器、參數掃描器和頻譜分析儀等在內的整個測量工具集進行全方位控制。 此外,所有功能和數據採集都可以通過常用程式設計語言來進行二次開發,支援 LabVIEWTM、MATLAB®、C、. NET 和 Python。
GHFLI 具備低輸入雜訊、寬分析頻寬和超短時間常數等特點,是一款理想的測量工具,適用於要求最嚴苛的微波應用。
應用
GHFLI 可以滿足最嚴苛的應用要求,例如測量和追蹤週期信號以及高達 1.8 GHz 的設備表徵和控制。
感測器:MEMS、NEMS、表面聲波、量子感測
光學設備:鎖模雷射器、泵浦-探測光譜、納米光機械產品、光學鎖相環
自旋量子比特:射頻反射譜、量子比特讀取
失效分析:激光電壓探測和成像
| 鎖相操作模式 | |
| 參考模式 | 單相和雙相鎖相 |
| 三諧波頻率模式 | 單個基頻和 3 個諧波頻率(同時) |
| 信號輸入 | |
| 頻率範圍 | DC - 1.8 GHz |
| 輸入阻抗 | 50 Ω |
| 輸入電壓雜訊 | ≤3.5 nV/√Hz (100 kHz 至 800 MHz) ≤6 nV/√Hz (大於 800 MHz 時) |
| 動態儲備 | 100 dB (典型值) |
| 輸入範圍 | ±10 mV 至 ±1 V |
| A/D 轉換 | 14 位元, 4 GSa/s |
| 連接器 | SMA |
| 信號輸出 | |
| 頻率範圍 | DC - 1.8 GHz |
| 輸出範圍 | ±10 mV 至 ±0.5 V -30 dBm 至 5 dBm (50 Ω 負載) |
| D/A 轉換 | 14 位元, 6 GSa/s |
| 連接器 | SMA |
| 參考信號與觸發信號 | |
| 觸發 | 4 個輸入埠,2 個輸出埠 |
| 解調器 | |
| 頻率範圍 | DC - 1.8 GHz |
| 解調器數目 | 8 個雙相解調器 |
| LAN/USB3 輸出取樣率 | 最大 4 MSa/s(所有解數據器總計) |
| 輔助輸出採樣率 | 50 MSa/s(每個高速輔助輸出埠),14 位元 |
| 濾波器時間常數 | 14 ns 至 21 s |
| 濾波器頻寬 | 3.2 mHz 至 11 MHz |
| 濾波器斜率 | 6, 12, 18, 24 dB/Oct |
| 示波器 | |
| 輸入通道 | 信號輸入 |
| 示波器模式 | 時域、頻域 (FFT) |
| 顯示通道數目 | 2 |
| 觸發模式 | 升降沿 |
| 垂直解析度 | 14 位元 |
| 游標計算 | 位置、區間、波形、峰值、追蹤、直方圖 |
| 參數掃描器 | |
| 掃描參數 | 振蕩器頻率、解調器相移、輔助偏置、信號輸出幅值、信號輸出偏置 |
| 參數掃描範圍 | 全範圍、線性和對數 |
| 參數掃描解析度 | 由起止點和掃描點數定義 |
| 顯示參數 | 解調器輸出(X, Y, R, Θ, f) |
| 顯示選項 | 單幅圖、雙幅圖(例如波特圖)、多軌跡 |
| 統計選項 | 振幅、頻譜密度、功率 |
| 輔助輸出 | |
| 高速輸出 | 4 通道, ±5 V (50 Ω), 14 位, 50 MSa/s, 25 MHz |
| 高解析度輸出 | 4 通道, ±5 V (50 Ω), 18 位, 1 MSa/s, 200 kHz |
| 輔助輸出信號 | R, Θ, X, Y, 或使用者定義 |
| 高速輸入 | 2 通道, ±1.5 V, 14 位 |
| 輔助連接器 | BNC |
| 連接和其他 | |
| 主機連接 | LAN / 乙太網、 1 Gbit/s、USB 3.0 |
| 數位 | I/O 32 位元,一般用途 |
| 時鐘 | 10 MHz 或 100 MHz 輸入和輸出 |
| 一般規格 | |
| 尺寸 | 420 × 450 × 100 mm3 16.5 × 17.7 × 3.9 inch3, 適用於 19 英寸機架 |
| 重量 | 10 kg (22 lb) |
| 電源 | 100-240 V, 50/60 Hz |
| PC 作業系統 | Windows 7, 8.1, 10, 11, macOS 10.11+, Linux |
Introduction
The Zurich Instruments GHFLI Lock-in Amplifier extends the advantages of lock-in amplifiers – noise rejection, phase sensitivity, frequency tracking and more – to applications that operate at frequencies up to 1.8 GHz.
The GHFLI contains two physical channels that operate as independent lock-in amplifiers. Each one is equipped with 4 dual-phase demodulators that enable parallel multi-harmonics and multi-frequency analysis, and with a 6 GSa/s signal generator for drive and reference signals. The demodulator filters can be tuned to give the best tradeoff between noise rejection and measurement speed. The USB and gigabit ethernet digital interfaces enable continuous data transfer to the computer at up to 4 MSa/s while the 4 high-speed and 4 high-precision auxiliary outputs can convert the measurement results, with custom scaling and offset, into analog signals for integration with other instruments.
Trailblazers. The GHFLI and SHFLI Microwave Lock-in Amplifiers.
The GHFLI includes the LabOne® control software that makes setting it up easy and convenient thanks to its graphical user interface. It also provides firm control over the entire measurement toolset that comprises the lock-ins, a dual-channel oscilloscope with FFT, a parametric sweeper, a spectrum analyzer and much more. Additionally, all the functionality and data acquisition can be accessed through the major programming languages for ease of integration: LabVIEWTM, MATLAB®, C, .NET and Python are supported.
The GHFLI’s low input noise, its wide analysis bandwidth and its very fast time constant make it the ideal measurement tool even for the most demanding microwave applications.
Applications
The GHFLI can serve even the most demanding applications that require measurement and tracking of periodic signals, and device characterization and control up to 1.8 GHz.
- Sensors: MEMS, NEMS, Surface Acoustic Waves, quantum sensing
- Optics: mode-locked lasers, pump-probe spectroscopy, nano-optomechanics, optical PLL
- Spin qubits: RF-reflectometry, qubit readout
- Failure analysis: laser voltage probing and imaging
Lock-in operating modes
| Reference mode | Single and dual lock-in |
| Triple-harmonic mode | 1 fundamental + 3 harmonics (simultaneous) |
Signal inputs
| Frequency range | DC - 1.8 GHz |
| Input impedance | 50 Ω |
| Input voltage noise | ≤3.5 nV/√Hz (100 kHz to 800 MHz) ≤6 nV/√Hz (> 800 MHz) |
| Dynamic reserve | 100 dB typical |
| Input ranges | ±10 mV to ±1 V |
| A/D conversion | 14 bits, 4 GSa/s |
| Connectors | SMA |
Signal outputs
| Frequency range | DC - 1.8 GHz |
| Output ranges | ±10 mV to ±0.5 V -30 dBm to 5 dBm (50 Ω load) |
| D/A conversion | 14 bit, 6 GSa/s |
| Connectors | SMA |
Reference and triggers
| Triggers | 4 inputs, 2 outputs |
Demodulators
| Frequency range | DC - 1.8 GHz |
| Number of demodulators | 8 dual-phase |
| Output sample rate on LAN/USB3 | 4 MSa/s maximum (total all demodulators) |
| Output sample rate on Aux outputs | 50 MSa/s (for each high-speed auxiliary output), 14 bit |
| Filter time constant | 14 ns to 21 s |
| Filter bandwidth | 3.2 mHz to 11 MHz |
| Filter slope | 6, 12, 18, 24 dB/Oct |
Scope
| Input channels | Signal inputs |
| Scope modes | Time domain, frequency domain (FFT) |
| Number of display channels | 2 |
| Trigger mode | Edge |
| Vertical resolution | 14 bits |
| Cursor math | Location, area, wave, peak, tracking, histogram |
Sweeper
| Scan parameters | Oscillator frequency, demodulator phase shift, auxiliary offset, signal output amplitudes, signal output offset |
| Parameter sweep ranges | Full range, linear and logarithmic |
| Parameter sweep resolution | Arbitrary, defined by start/stop value, and number of sweep points |
| Display parameters | Demodulator output (X, Y, R, Θ, f) |
| Display options | Single plot, dual plot (e.g. Bode plot), multi-trace |
| Statistical options | Amplitude, spectral density, power |
Auxiliary signals
| High-speed outputs | 4 channels, ±5 V (in 50 Ω), 14 bit, 50 MSa/s, 25 MHz |
| High-resolution outputs | 4 channels, ±5 V (in 50 Ω), 18 bit, 1 MSa/s, 200 kHz |
| Auxiliary outputs signals | R, Θ, X, Y, or user defined |
| High-speed inputs | 2 channels, ±1.5 V, 14 bit |
| Auxiliary connectors | BNC |
Connectivity and others
| Host connection | LAN / Ethernet, 1 Gbit/s USB 3.0 |
| Digital I/O | 32 bits, general purpose |
| Clock | 10 MHz or 100 MHz input and output |
General
| Dimensions | 420 × 450 × 100 mm3 16.5 × 17.7 × 3.9 inch3, suited for 19 inch rack |
| Weight | 10 kg (22 lb) |
| Power supply AC line | 100-240 V, 50/60 Hz |
| PC operating system | Windows 7, 8.1, 10, 11, macOS 10.11+, Linux |