21 Results
This application note is about creating your own battery model for the R&S®NGM200 or R&S®NGU201, beyond the standard models provided within the battery simulation option NGM-K106. The main purpose is to gradually discharge a battery or a rechargeable battery using the internal QuickArb function. The discharge of the battery can then be recorded using the fast data logging functionality FastLog. The recorded data are stored in a .CSV file. This file can then be adapted to be used as a battery model in the battery simulation mode of the R&S®NGM200. For this purpose, Rohde & Schwarz provides a tool for developers to make their work easier. This tool calculates all the data required for a battery model.Note: More advanced tools are available with application notes 1GP130 (Battery Cycle Tool) and 1GP136 (Battery Simulation).
26-Jul-2023 | AN-No. 1GP128
Sporadic events and errors may occur when developing new measurement instruments and need to be taken into account in all design stages and analyses. The Rohde & Schwarz power supplies can precisely capture such sporadic events and errors.
02-May-2023
Batteries are dynamic energy sources that diverge from ideal voltage sources. The R&S®NGM-K106 battery simulation option recreates battery models on the R&S®NGM200/NGU201 does far more than standard models.
02-May-2023
The battery cycle tool has several charts that display collected data and can be used to characterize battery samples and create battery models.
02-May-2023
The Rohde & Schwarz power consumption analysis tool helps evaluate power consumption data collected with Rohde & Schwarz power supplies.
01-May-2023
Rohde & Schwarz has a tool that can configure all instruments and channels from one interface to maintain an overview of the states and measurement values for all channels.
28-Apr-2023
DC power supplies from Rohde & Schwarz can be connected and configured for synchronized on/off switching of all channels across multiple power supplies in intricate and complex systems.
28-Apr-2023
This application note is about creating your own battery model for the R&S®NGM200 and R&S®NGU201, beyond the standard models provided within the battery simulation option NGM-K106 and NGU-K106. To get to a battery model, a few steps are required. To determine the parameters for the battery model, it is necessary to discharge a battery using a selected method, to record the data and to calculate the model on this basis. With this software, a connection can be established to the instrument, batteries can be measured using various measurement methods, and a model can then be created from these measurements. These models, which are determined from the measurements, can then be simulated with the power supply, thus creating a digital twin of the battery. Using these, test scenarios can be carried out in a safe and reproducible environment.
21-Nov-2022 | AN-No. 1GP136
This application note applies to DC power supplies R&S®NGL200, R&S®NGM200, R&S®NGP800, R&S®NGU201 and R&S®NGU401, as well as LCR meters R&S®LCX100 and R&S®LCX200. It provides an overview over ethernet-based remote services provided by the referenced R&S® instruments. These services comprise an instrument web page, VNC remote control and FTP file transfer between the instrument and a remote computer. The application note gives instructions on how to set up the instrument and the remote computer in order to be able to utilize these services.
19-May-2022 | AN-No. 1GP135
Battery life time is usually one of the most important specifications for battery-powered devices. Depending on the application, life time requirements can range from tens of hours for typical wearables like smart watches to ten years for smart sensors. Understanding where and when energy is used in order to minimize power consumption is therefore key for any of these devices.The power consumption analysis tool was developed to make it easier for customers to analyze power consumption data collected with either the NGL, NGM or NGU power supplies from Rohde & Schwarz. It allows to easily capture power consumption data and analyze using basic measurements.
31-Jan-2022 | AN-No. 1SL380
The application program of this application note provides a tool for cycling battery samples, using two-quadrant DC power supplies from Rohde & Schwarz. The batteries can be repeatedly charged and discharged while collecting information about open-circuit voltage, loaded voltage and internal resistance, depending on the charged and discharged capacity. The tool provides a variety of charts for displaying the collected data. It can be used for characterizing battery samples, as well as for creating battery models which can be used in the battery simulations of R&S®NGU201 and R&S®NGM200.This tool is meant for the use by knowledgeable experts. The application note does not provide instructions on how to properly charge and discharge batteries.
17-Dec-2021 | AN-No. 1GP130
Source measure units R&S®NGU401 and R&S®NGU201 are capable of precise current measurements from sub-microampere up to ampere. This application note provides a tool which generates a voltage or current sweep using the arbitrary function of the instruments. A fast log captures voltage and current values during the sweep. Subsequently the application program determines the voltage and current value for each sweep step and plots the results in an I-V curve .The tool can be utilized to characterize all kinds of two-pole devices like diodes, LEDs and solar panels.This application note can also be used in connection with DC power supplies R&S®NGM201 and R&S®NGM202.
15-Feb-2021 | AN-No. 1GP129
High-precision two-quadrant power supplies generate current profiles and simulate batteries
10-Dec-2020
Power consumption analysis with the Rohde & Schwarz specialty DC power supplies app card Power consumption analysis with the Rohde & Schwarz specialty DC power supplies app card Power consumption analysis with the Rohde & Schwarz specialty DC power supplies Power consumption analysis with the Rohde & Schwarz specialty DC power supplies app card Power consumption analysis with the Rohde & Schwarz specialty
09-Sep-2020
Applications requiring higher voltages or currents, or a stack of voltage sources with taps in-between, demand the combination of several DC power supply channels in series or in parallel.All channels of DC power supplies R&S®NGL200 and R&S®NGM200 are isolated against the grounding equipment conductor and against the digital ground of the instrument. Therefore, channels can be connected in parallel for increasing the current capability, or in series for achieving higher voltages or dual-voltage supplies.When a large number of power supply channels is used, it is desirable to have a tool for configuring all instruments and channels from one user interface, and for keeping an overview over the states and measurement values from all channels.The application program of this application note provides such a tool. The document contains background information and user manual for the software.
27-Aug-2020 | AN-No. 1GP127
All channels of DC power supplies R&S®NGL200 and R&S®NGM200 are isolated against the grounding equipment conductor and against the digital ground of the instrument. Therefore, channels can be connected in parallel for increasing the current capability, or in series for achieving higher voltages or dual-voltage supplies. In the case of parallel and serial connections it is usually desired to switch all channels simultaneously on and off for protecting the supplied circuitry and for avoiding overcurrent on other power supply channels.This application note describes how to connect and configure DC power supplies R&S®NGL200 and R&S®NGM200 for synchronized on and off switching of all channels across multiple power supplies.
15-Jun-2020 | AN-No. 1GP126
NGM200, NGL200 The R&S®NGL200 and R&S®NGM200 can simulate battery cells when testing battery management systems and replace far more expensive dedicated battery simulators. Testing battery management systems with Rohde & Schwarz power supplies NGM200, NGL200 The R&S®NGL200 and R&S®NGM200 can simulate battery cells when testing battery management systems and replace far more expensive dedicated battery
08-Jun-2020
This application note describes different measurement techniques and methods for an automotive lighting module based on a hybrid controller design. Of course, a lighting module in such an environment has to fulfil requirements according to the automotive standard, which is typically a relatively high-level standard compare to the industry standard. The oscilloscope is a perfect tool for this application to verify the set of requirements because time domain signals (analog and digital) are present in the whole design. Furthermore, measurements in the frequency domain have to be performed, which a modern oscilloscope can fulfil. In addition to the oscilloscope, a programmable power supply supports the measurement in several measurements. The set of requirements are the main reason why a hybrid controller from Microchip is a great choice for this design because it provides tremendous analogue and digital capabilities. The hybrid controller provides beside the analogue functions like an operational amplifier digital functions like analog-to-digital converter and interface functions like UART, CAN or LIN to interact with other systems. The programmable software part is hosted in the digital part. The digital part of the controller implements the communication interface and provides status information to the outer system controller. The light source itself has to avoid any flicker and shall be capable to dim to different lighting levels. Wide input voltage variations and efficiency have to be taken into account during the design of a converter dedicated for automotive applications. Nevertheless, the measurement considerations presented with the design are valid and applicable in other professional lighting industries as well.Thanks to Mr. Andreas Reiter and Mr. Milan Marjanovic from Microchip who provided us with hardware and software and their great expertise to create this application note.
08-Jun-2020 | AN-No. GFM339
This application program supports the logging and fast logging functionality of the power supplies R&S® NGM200, NGU201 and NGU401. Standard logging is also supported with power supply R&S® NGL200 and NGP800. Power supplies R&S® NGA100 and NGE100 are supported in the data collection mode. Charting functionality is available for logged voltage, current and power values.
14-Nov-2019 | AN-No. 1GP122
NGE100B, HMC804x, HMP2000, HMP4000, HM8143, NGL200, NGM200, M3SR IN4000A, Power supplies, DC Power supplies, The arbitrary waveform feature o Rohde & Schwarz solutions allow you to simulate device behaviors and replaces basic standalone arbitrary waveform generators. Emulate real-world scenarios with Rohde & Schwarz power supplies NGE100B, HMC804x, HMP2000, HMP4000, HM8143, NGL200, NGM200, M3SR IN4000A
04-Nov-2019