SAN-400 40 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
- 9 kHz~40 GHz real-time spectrum analyzer/receiver;
- Superheterodyne digital receiver architecture, 14 segments pre-selected filter;
- Typical image suppression and IF rejection>75 dBc;
- 100 MHz analysis bandwidth with adjustable sampling rate, 400 GHz/sec spectrum sweep speed;
- FPGA based digital signal processing;
- 40 GHz DANL=-141 dBm/Hz, Phase Noise=-86 dBc/Hz@10 kHz;
- Weight 185 grams (core module), size 125 × 60 × 17 mm, power consumption 10-14 W;
- Highly compatible API interfaces and SAStudio4 GUI;
- Compatible with ARM and x86 processors, Linux and Windows operating systems;
- Built-in OCXO (option), temperature drift≤0.15 ppm;
- USB3.0/2.0 Type C supported.
Compact Real-Time Spectrum Analyzer/Receiver
SAN-400 is a receiver/spectrum analyzer module based on superheterodyne digital IF architecture, equipped with USB3.0 interface and high-speed FPGA digital signal processing, providing good performance in a compact size. It is optimized for applications such as receivers, spectrum monitoring, and RF testing. It offers multiple outputs, including spectrum, digital IQ stream, power detection waveform (zero sweep bandwidth), and real-time spectrum. The volume, weight, and power consumption are highly optimized for field and embedded applications. It provides a highly compatible API interfaces, which can quickly realize efficient secondary development. User code is compatible with other HAROGIC devices such as SAE-90, SAE-200 and NXE-200, allowing users to select hardware flexibly according to their application needs.
SAN-400 provides a particularly flexible solution for receivers, spectrum monitoring and convenient RF testing. The device is with a weight of only 185 g, which is smaller than the size of a mobile phone, realizing the complete functionality of superheterodyne receiver and spectrum analyzer system in a compact size. The module has a highly integrated superheterodyne receiver RF front-end built-in with performance, as well as a back-end digital processing system based on FPGA to accelerate relevant digital signal processing. FPGA-based digital signal processing effectively reduces the performance requirements of the device on the back-end processor. Even on low-power x86 or ARM processor platforms with limited performance, SAN-400 device can still be deployed to achieve good measurement results. SAN-400 works properly on both Linux and Windows operating systems.
Available options
Code Name | Option | Explanation |
---|---|---|
01 | Built-in OCXO reference clock (hardware) | Providing a reference clock with better stability than the standard configuration, with a temperature drift of<0.15 ppm, increasing the overall power consumption by 0.8 W |
10 | MUXIO IO extended board (accessory) | Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals |
11 | External GNSS (accessory) | Standard GNSS module connected to MUXIO |
12 | External high precision GNSS (accessory) | High precision GNSS module connected to MUXIO |
13 | External GNSS disciplined OCXO reference clock (accessory) | Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W |
20 | Extended temperature class (hardware) | Extending the operating temperature to – 20~70 oC |
21 | Wide temperature class (hardware) | Extending the operating temperature to – 40~70 oC |
Related downloads
Products Overview
Product Name | Frequency | Phase Noise | DANL | Resolution Bandwidth | Analysis Bandwidth | |
---|---|---|---|---|---|---|
SAN-400 | 9 kHz – 40 GHz | -101 dBc/Hz@10 kHz 3.0GHz Carrier | -141 dBm/Hz 1 GHz PreAmpOn | 0.1 Hz-10 MHz | 100 MHz | |
SAE-200 | 9 kHz – 20 GHz | -100 dBc/Hz@10 kHz 3.0GHz Carrier | -158 dBm/Hz | 0.1 Hz-10 MHz | 100 MHz | |
SAE-90 | 9 kHz-9.5 GHz | -102 dBc/Hz@10 kHz 3.0 GHz Carrier | -161 dBm/Hz | 0.1 Hz-10 MHz | 100 MHz | |
SAM-80 | 9 kHz-8.5 GHz | -103 dBc/Hz@10 kHz 3.0 GHz Carrier | -164 dBm/Hz | 0.1 Hz-10 MHz | 100 MHz | |
SAM-60 M3 | 9 kHz-6.3 GHz | -103 dBc/Hz@10 kHz 3.0 GHz Carrier | -164 dBm/Hz | 0.1 Hz-10 MHz | 100 MHz | |
SAN-60 M2 | 9 kHz-6.3 GHz | -110dBc/Hz@10 kHz 1.0 GHz carrier | -162 dBm/Hz | 0.1 Hz-2.5 MHz | 25 MHz | |
SAN-45 | 9 kHz-4.5 GHz | -100 dBc/Hz@10 kHz 3.0 GHz carrier | -161 dBm/Hz | 0.1 Hz-1 MHz | 6.25 MHz |