At the embedded world 2023 in Nuremberg, in Hall 4, Booth 472, RIGOL Technologies EU GmbH is showcasing its latest top-of-the-line devices from the StationMax series, as well as new high-resolution oscilloscopes and powerful power supplies, all based on Rigol’s latest technologies.
The DS70000 series from the StationMax family is based on the advanced UltraVision III architecture with the Phoenix chipset. This offers a higher sampling rate, a faster acquisition rate, significantly more memory depth, and a higher vertical resolution.
The DS70000 series has four analog channels, and with the enhanced 20 GSa/s chipset, the DS70300 and DS70500 models are available with bandwidths of 3 GHz and 5 GHz. The vertical resolution can be set between 8 bits and 16 bits, making it ideal for measuring very small signal components.
The DS70000 series is ideally suited for very fast signal acquisition and analysis. Typical applications include automatic testing, remote monitoring, protocol analysis of bus systems, for example in the automotive sector with CAN-FD, FlexRay, LIN, RS232, SPI, and also measurements of electronic circuits as well as the measurement of switching power supplies and much more. Due to its high bandwidth and optimized spectrum analysis, this oscilloscope can also be used perfectly for RF measurements.
The DG70004 model from the StationMax series is an arbitrary signal generator with outstanding performance. It has 4 channels and 5 GHz and makes a clear statement with a maximum IQ baseband width of 1.5 GHz. The generator is based on the new SIFI-III platform and the Android operating system and represents a combination of an arbitrary waveform generator and an arbitrary function generator as well as a signal processing unit, in which the sampling rate is set and controlled depending on the function.
The device has a 16-bit resolution and is capable of outputting arbitrary real waveforms up to 5 GSa/s and interpolated up to 10 GSa/s with a maximum memory per channel of 1.5 Gpts. The IQ modulator has a freely adjustable sampling rate from 100 Sa/s to 12 GSa/s, making an output carrier frequency of DC to 5 GHz achievable.
The four channels can be phase-synchronized for multiple synchronous outputs up to 10 ps. If more than 4 channels are required, several DG70004 can be synchronized up to a maximum of 224 channels with this phase accuracy, e.g. for use in quantum computer systems. The DG70000 series is a perfect solution for demanding applications, such as in the semiconductor and automotive industries, as well as in research and development.
The DHO4000 series features a vertical resolution of 12 bits and is designed for bandwidths of 200, 400, and 800 MHz with a sampling rate of up to 4 GSa/s. The devices have four analog channels and offer a memory depth of up to 500 Mpts. The minimum vertical setting for the DHO4000 series can be set to 100 µV/DIV. Additionally, two different impedances (1 MΩ, 50 Ω) can be set.
The three new ASICs achieve a very low noise level of approximately 18 µVrms, and due to the vertical resolution of 12 bits, even the smallest amplitude deviations can be measured. With "Ultra Acquire", a new analysis form has been integrated, which achieves a very fast trigger rate of 1.5 billion wfms/sec. This makes it easy to measure very fast or sporadic and short events.
Various trigger, math, and display options (advanced FFT of 1 million points, mask test, and power analysis), as well as an integrated signal search function, are available, as are all usual serial bus protocol analysis and trigger functions. The integrated voltmeter and frequency counter complete the full range of measurements. Various interfaces such as USB host, USB device, HDMI, LAN, and AUX OUT are also available.
Typical applications include power switching measurements in the power range, automated testing in factories, protocol analysis for serial buses in automotive electronics, measurement of electronic circuits, and applications in development.
The microwave generator DSG5000 is available with two different frequency ranges of 9 kHz to 12 GHz and up to 20 GHz. The devices are available in versions with 2, 4, 6, or 8 channels, which have a channel-to-channel isolation of up to 85 dB (typical).
For each channel, the frequency, amplitude, and all available functions can be individually set or output as a group for a desired number of channels. This series is also characterized by very low phase noise. The harmonics are up to 50 dBc below the carrier, which emphasizes very accurate and interference-free signal generation. The patented fully digital amplitude control technology provides an amplitude accuracy of <0.7 dB (typical), and the frequency accuracy of the 10 MHz reference is +/-1 ppm. Optional analog modulation forms such as analog AM, frequency FM, and phase PM can be generated over the entire frequency range starting from 1 MHz via single channels or all channels.
The device can be operated very easily via an intuitive 3.5" color touch display or via web control. No driver needs to be installed on the PC for web control use. The DSG5000 series offers an optimal solution for many microwave applications, such as in the areas of EMC stress testing, MIMO applications, system setups for quantum computer simulation and testing, radar signal generation, and much more.
The DP2031 power supply model has three isolated channels (32 V and 6 V) with a maximum output power of 222 watts. To generate the smallest currents, the power supply has two different modes, high current, and low current. The display accuracy in the low current mode is in the µA range, which can be used for precise power supply up to 11 mA.
The power supply offers an analysis function that always displays the current output curve in real-time in the roll mode and can be applied to the respective values such as voltage, current, and power. To prevent data loss, an additional trend range can be activated, which compresses all data. An additional analysis form can also be activated when measuring current pulses to determine their duration
The power supplies are characterized by a very low ripple (<350 µVrms / 2 mVpp) and very low noise behavior, and are therefore suitable for applications where a very pure power supply is necessary. For integration into ATE systems or for fast programming, the command processing time has been significantly accelerated and is <10 ms.
The DP900 power supply series is available in various device variants. The standard variant DP932A includes all functions such as the digital IO interface, ARB function, and high-resolution display. The DP932U variant is specifically designed for the education market and is available at a very affordable price. This model can be upgraded to a fully equipped DP932A with individual functions via a license upgrade if necessary.