Functional Overview¶
This chapter provides the overview of the features offered by the GHFLI Lock-in Amplifier. The first section contains the description of the functional diagram, and the hardware and software feature list. The following section details the front panel and the back panel of the measurement instrument. The last section provides product selection and ordering support.
Features¶
The GHFLI Lock-in Amplifier consists of several internal units that process digital data (light blue color) and several interface units processing analog signals (dark blue color). The front panel is depicted on the left-hand side and the back panel is depicted on the right-hand side. The arrows between the panels and the interface units indicate selected physical connections and the data flow.
The orange blocks are optional units that can be either ordered at purchase or upgraded later. The GHFLI Lock-in Amplifier has 2 physical channels each with its own signal input and output, auxiliary input and digital inputs and outputs. The ordering guide details the currently available upgrade options.
The signal to be measured is usually connected to one of the two GHFLI signal inputs where it is amplified to a defined range and digitized at very high speed. The resulting samples are fed into the digital signal processor that contains 8 dual-phase demodulators. The results of the demodulation are fed into a digital interface to be transferred to the host computer through the LAN or USB interface, and can also be routed to the auxiliary outputs on the front panel of the GHFLI. Two low-distortion signal outputs provide the signal generator functionality.
The numerical oscillators generate sine and cosine pairs that are used for the demodulation of the input signal and also for the generation of the GHFLI output signals. For this purpose, when the GHFLI-MF Multi-Frequency option is present, the Output Adder can generate a linear combination of the oscillator outputs to generate a multi-frequency output signal.
Hardware trigger and reference signals are used for various purposes inside the instrument, such as triggering demodulation and oscilloscope data acquisition, to acquire or generate an external reference signal, or triggering other equipment.
Lock-in Operating Modes¶
- Internal reference mode
- External reference mode (coming later in 2023)
- Dual-lock-in operation (two independent lock-in amplifiers in the same box)
- Triple-harmonic mode (simultaneous measurement at three harmonic frequencies)
- Arbitrary frequency mode (with GHF-MF option, simultaneous measurement at up to eight arbitrary frequencies)
Signal Inputs¶
- 2 low-noise GHF Inputs, DC - 1.8 GHz frequency range
- Variable input range, selectable from 10 mV to 1 V peak (50Ω)
- Selectable AC/DC coupling
Signal Outputs¶
- 2 low-noise GHF Outputs, DC - 1.8 GHz frequency range
- Variable output range, selectable from 10 mV to 0.5 V peak (into 50Ω)
Demodulators & Reference¶
- Up to 8 dual-phase demodulators
- Up to 8 programmable numerical oscillators
- Up to 2 external reference signals (coming later in 2023)
- Up to 4 input and up to 4 output trigger signals
- Individually programmable demodulator filters
- 128-bit internal processing
- 64-bit resolution demodulator sample
- 48-bit internal reference resolution
Auxiliary Input and Outputs¶
- 4 high-speed auxiliary outputs for user-defined signals, 25 MHz bandwidth, 14 bit
- 4 high-precision auxiliary outputs for user-defined signals, 200 kHz bandwidth, 18 bit
- 2 auxiliary inputs, general purpose
High-speed Connectivity¶
- SMA connectors on front and back panel for triggers, signals and external clock
- USB 3.0 high-speed host interface
- LAN/Ethernet 1 Gbit/s controller interface
- DIO: 32-bit digital input-output port
- Clock input/output connectors (10/100 MHz)
Extensive Time and Frequency Domain Analysis Tools¶
- Numeric tool
- Plotter
- Oscilloscope
- Sweeper and Frequency response analyzer
- FFT spectrum analyzer
- Data Acquisition tool
Software Features¶
- Web-based, high-speed LabOne® user interface with multi-instrument control
- Data server with multi-client support
- API for Python and MATLAB®
Front Panel Tour¶
The front panel SMA and BNC connectors and control LEDs are arranged as shown in Figure 2 and listed in Table 1.
Back Panel Tour¶
The back panel is the main interface for power, control, service and connectivity to other ZI instruments. Please refer to Figure 3 and Table 2 for the detailed description of the items.
Ordering Guide¶
Table 3 provides an overview of the available GHFLI products. Upgradeable features are options that can be purchased anytime without the need to send the Instrument back to Zurich Instruments.
Product code | Product name | Description | Field upgrade possible |
---|---|---|---|
GHFLI | GHFLI Lock-in Amplifier | base lock-in amplifier | - |
GHF-MF | GHF-MF Multi-frequency | option | yes |
GHF-MOD | GHF-MOD AM/FM Modulation | option | yes1 |
GHF-PID | GHF-PID Quad PID/PLL Controller | option | yes |
1 Requires GHF-MF Multi-frequency option
Feature | GHFLI | GHFLI + GHF-MF | GHFLI + GHF-PID | GHFLI + GHF-MF + GHF-PID |
---|---|---|---|---|
Internal reference mode | yes | yes | yes | yes |
External reference mode | yes | yes | yes | yes |
Dual-channel operation (2 independent measurement units) | yes | yes | yes | yes |
Signal generators | 2 | 2 | 2 | 2 |
Superposed output sinusoidals per generator | 1 | up to 8 | 1 | up to 8 |
Triple-harmonic mode | yes | yes | yes | yes |
Multi-frequency mode | - | yes | - | yes |
Arbitrary frequency mode | - | yes | - | yes |
Number of demodulators | 8 | 8 | 8 | 8 |
Simultaneous frequencies | 2 | 8 | 2 | 8 |
Simultaneous numerical oscillator harmonics | 4+4 | - | 4+4 | - |
External references | 2 | 2 | 2 | 2 |
PID controllers | - | - | 4 | 4 |
Dynamic reserve | 100 dB | 100 dB | 100 dB | 100 dB |
Lock-in range | 1.8 GHz | 1.8 GHz | 1.8 GHz | 1.8 GHz |
USB 3.0 | yes | yes | yes | yes |
LAN 1 Gbit/s | yes | yes | yes | yes |