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The OE2022 dual-channel lock-in amplifier is the latest core technology product, featuring exceptional high performance and wide bandwidth measurement capabilities. This instrument is based on digital modulation technology and is equipped with a 24-bit high-precision analog-to-digital converter (ADC) and 16-bit high-speed digital-to-analog converter (DAC). With the newly launched LIUXI-architecture, it can accurately, quickly, and flexibly detect effective signal components hidden in strong noise.
The OE2022 has 2 independent and synchronized input channels, capable of simultaneously measuring the amplitude and phase information of two input signals. It achieves international leading levels in key performance indicators such as measurement accuracy, operating frequency range, signal-to-noise ratio, and dynamic reserve. Additionally, the newly added multi-harmonic measurement, oscilloscope, spectrum analyzer functions, and PID control capabilities make the OE2022 widely applicable to various needs in scientific research and industrial fields.
Block Diagram of OE2022
The OE2022 is equipped with a low-noise analog amplifier that efficiently processes single-ended or differential signals, with an equivalent input noise as low as 2.5 nV/√Hz. The input impedance of this channel is 10 MΩ, and the full-scale range is from 1 nVrms to 5 Vrms. Furthermore, the signal input channel uses a high-precision 24-bit ADC, achieving a dynamic range over 130 dB.
The signal output ports of OE2022 is based on a 32 MSPS 16-bit DAC, capable of generating high-precision sine wave signals in the frequency range of DC Hz to 1.5 MHz, with adjustable DC offset. The signal amplitude range is from 0.1 Vrms to 5 Vrms, and the DC offset range is ±5 Vdc. For external devices requiring bias voltage, such as electro-optic modulators, the OE2022 can drive devices directly without the need for additional level conversion amplifiers. The output signal phase is synchronized with the instrument's internal oscillator. It can be independently set for phase offset.
Additionally, the OE2022 supports AM/FM/PM modulation functions, allowing users to perform modulation control of the system.
The reference signal of the OE2022 can be selected as either a sine wave or square wave signal based on user requirements, or it can use an internally digitally synthesized reference signal. When the OE2022 is set to internal reference signal mode, the instrument's internal high-precision oscillator and digital synthesis algorithm generate a sine wave signal for multiplication with the input signal, with the internal reference signal being nearly unaffected by phase noise. Through digital phase shifting technology, the phase resolution of the internal reference signal can reach 1 μdeg.
When the OE2022 operates in external reference signal mode, it accepts sine wave signals or TTL logic levels as external reference signals, which are locked by the internal digital phase-locked loop. Based on the frequency of the reference signal, the OE2022 can detect signals at the fundamental frequency and its harmonics, detecting up to 10,000 times the fundamental frequency. But it provided that the maximum harmonic frequency does not exceed the upper limit of the instrument's measurement bandwidth.
The OE2022 has 8 synchronized demodulators, which can be independently controlled. The time constant of the OE2022 can be flexibly set within the range of 100 ns to 3 ks, allowing users to customize the time constant according to their needs. The filter's roll-off rate can be selected from 6 to 48 dB/oct in 8 steps. Using digital modulation technology and advanced filter structures. The OE2022 offers higher dynamic reserve (>130 dB), more precise phase (absolute phase error < 1°), zero DC drift, and excellent orthogonal performance compared to traditional analog lock-in amplifiers. Additionally, the OE2022 provides an optional synchronous filter that can quickly eliminate the effects of signal harmonics, ensuring that the instrument accurately detects low-frequency signals while responding rapidly.
The OE2022 includes USB 2.0, 1000 Mbps RJ45 Ethernet port, WIFI network interface, RS232 serial port, and GPIB interface. Through these interfaces, users can effectively utilize all testing functions of the OE2022 on a controlling computer, setting reasonable control parameters and reading the data measured by the instrument.
The OE2022 features a 5.6-inch TFT color display with a resolution of 640×480, serving as the main user interface, allowing full independent control of the instrument via keyboard. On the display, users can easily heed parameters such as demodulator X, Y, R, θ, and configure various basic settings like filter constants, making the operation intuitive and convenient.
| Input Channel Number | 2 |
| Input Mode: | |
| Voltage | Single-ended or Differential |
| Current | Single-ended |
| Full-Scale Sensitivity | 1 nV to 5 Vrms |
| Range Levels | 2mV to 5V, total 7 levels |
| Input amplitude range | < 5 Vrms |
| Input Coupling Mode | DC or AC coupling |
| Input Impedance | 10 MΩ || 25 pF (Voltage) |
| 100Ω or1 kΩ(Current) | |
| Input Shield Grounding | Grounding or 10 kΩ floating |
| Dynamic Reserve | >130 dB |
| Gain Accuracy | 0.5% typical, 1% max |
| Input Voltage Noise | 3.5nV/√Hz(f ≥ 1 kHz) |
| 2.5 nV/√Hz(f ≥ 10 kHz) | |
| Input Current Noise | 20 fA/√Hz(f = 97Hz) |
| ADC Bit | 24 bit |
| Reference Channel Number | 2 |
| Reference Signal | |
| Frequency Range | DC – 1.5MHz |
| Supported Waveform | Square or sine wave |
| Input Impedance | 1 MΩ |
| Reference Levels: | |
| Square | 3V<VIH<5V, -0.1V<VIL<0.5V |
| Sine | 300 mV < Vpp < 10 V |
| Phase: | |
| Resolution | 1.0 μdeg |
| Phase Error | ±0.5 deg typical, ±1 deg max |
| Temperature Drift | < 200 ppm/℃ |
| Harmonic Detection | 1-10000F (nF < 1.5 MHz) |
| Acquisition Time: | |
| Internal Reference | Instantaneous acquisition |
| External Reference | 10 or 100 signal cycle |
| Oscillator Number | 2 |
| Oscillator Parameters: | |
| Accuracy | 0.3 ppm |
| Temperature Stability | 0.5 ppm/℃ |
| Aging Rate | <1 ppm/year |
| Phase Noise | -145 dBc/Hz (@1kHz) |
| Output Channel Number | 2 |
| Frequency Range | DC – 1.5MHz |
| Frequency Accuracy | 2 ppm + 1 μHz |
| Frequency Resolution | 1 nHz |
| Sine Amplitude: | 0.1 μVrms to 5 Vrms |
| Accuracy | 0.5% typical, 2% max |
| Resolution | 0.1 μVrms |
| Driving Current | ± 80 mA max |
| Temperature Stability | <200 ppm/℃ |
| Output Impedance | 50 Ω |
| Adjustable DC Offset | -5 VDC to 5 VDC |
| Synchronous Output | 3.3V TTL/CMOS level |
| output impedance 50 Ω | |
| Additional Features | AM/FM/PM modulation output |
| DAC Parameter | 16 bit, 32 MSPS |
| Demodulator Number | 8 |
| Demodulator Bit | 64 bit |
| Input Source Select | 2 input channels selectable |
| Time Constant | 100ns-3ks |
| Measurement Bandwidth | 50μHz-1.6 MHz |
| Filter Slope (dB/oct) | 6,12,18,24,30,36,42,48 |
| Synchronous Filter | <1000 Hz effective |
| AUX Input: | |
| Function | 4-channel input |
| Amplitude | ±10V, 0.1 mV resolution |
| Input Impedance | 1MΩ |
| ADC | 16 bit, 150 kSPS |
| AUX Output: | |
| Function | 4-channel output |
| Amplitude | ±10V, 0.1 mV resolution |
| Driving Current | 30 mA max |
| DAC | 16 bit, 500 kSPS |
| RS-232 | DB-9 female interface |
| USB2.0 | 480 Mbpshigh-speed interface |
| Ethernet | RJ45-1000Mbps |
| WIFI wireless network interface | |
| GPIB | IEEE-488.2interface |
| Power Supply: | |
| Voltage | 220-240 VAC |
| 100-120 VAC(optional) | |
| Power | 50 W typical, 70 W max |
| Power Noise Suppression | 70dB@1MHz |
| Dimensions | 448mmx532mmx148mm |
| Weight | 12 kg |
| Scanning Microscope | AFM, STM, SPM |
| Materials Science | Carrier mobility, Carrier density, Hall effect, Ultrasonic materials |
| Transport Measurement | Conductivity measurement, lmpedance measurement |
| Noise Represents | Noise density, Cross-correlation measurement |
| Optical Experiment | Spectral analysis, Spectral measurement, THz measurement, TDLAS |
| Sensor Measuring | Gyroscope, Photoelectric sensor, Resonator, Accelerometer |
| Magnetic Sensor | SQUIDs, NV color center, Atomic Magnetometer, VSM |
| Biomedical | Microfluidic |
The OE2022 provides professional PC software that allows configuration of each demodulator, input channel, and output channel through schematic diagrams or control panels, combining professionalism and practicality with simplicity and intuitiveness. The software features clear numerical display and real-time waveform display functions. Users can save the measurement results exportable as CSV files for subsequent analysis using professional software, enhancing the ease of testing. Furthermore, we fully support application programming interfaces (API) in Python, MATLAB, and LabVIEW.
The oscilloscope function features 2 signal channels, selectable for signal input, reference input, signal output, and auxiliary input/output, providing various triggering methods for real-time display of time-domain signals. Each channel has a maximum sampling depth of 65,536 and adjustable sampling durations from 65 µs to 1 s.
The OE2022 has an internal independent 2-channel digital PID controller with a maximum sampling rate of 4 MSPS. The PID controller is closely linked with the lock-in amplifier, controlling the output signal's amplitude, phase, frequency, and other signals based on the measurements from the demodulator, achieving precise control of multiple parameters.
The parameter scanner provides users with convenient quick scanning capabilities, allowing for the instant plotting of frequency response, amplitude response curves, and offering single or loop scanning modes.
The FFT spectrum analyzer analyzes the frequency domain information of signals based on waveforms captured by the oscilloscope. Depending on the sampling rate and sampling depth, the frequency resolution range of the spectrum analyzer is approximately 1 Hz to 31 kHz.
| File name | Explain | Size | Version number | Download |
| OE2022 User Manual | Operating Manual for OE2022 Lock-in Amplifier. | 7287kb | v250205 |
Download
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| OE2022 Introduction Document | Product Introduction Document of OE2022 Lock-in Amplifier. | 2157kb | v250421 |
Download
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