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PanMETRON Universal Battery SimulatorPanMETRON offers a high-tech solution designed to meet modern energy needs with its universal battery simulator. This simulator provides its users with a reliable testing environment and allows detailed analysis of battery dynamics. PanMETRON, which can simulate a wide range of battery types with its 12.5W, 5V, 2.5A capacity, is a universal device that appeals to a wide range of users from engineers to researchers and students.
PanMETRON Universal Battery Simulator, allows users to safely and efficiently simulate battery characteristics with various charge, discharge, power supply and electronic load modes. Key functions offered by this device include:
Charge Simulation: Simulation of charge dynamics according to the requirements of different battery chemistries is optimized for safe and efficient use of the device.
Discharge Simulation: Ability to realistically simulate the battery performance of a device drawing power from the battery.
Power Supply Mode: Functioning as a programmable power supply at user-specified voltage values, this mode is ideal for testing and design processes.
Electronic Load Function: The device provides a reliable test environment for current-voltage characteristic measurement processes by zeroing out the residual charge of batteries.
What battery types does the PanMETRON Universal Battery Simulator support?
All battery types with a full voltage below 5V can be simulated.
What is the FUNCTION (CPU OFFLINE) feature?
This feature allows users to control the simulator using development boards, so each user can program the device in their own software environment.
What are the safety precautions?
The device has overcurrent, voltage and temperature controls and automatically shuts down in case of overheating.
In which modes can the simulator operate?
It has the capacity to operate in charge, discharge, power supply and electronic load modes.
How do I program the simulator?
The simulator is compatible with development boards such as Arduino, STM32 or Raspberry Pi and can be programmed easily.
The COOL (Chip out of the Loop, or Chip in slave mode) concept developed by PanMETRON allows the simulator to be easily programmed with the development boards preferred by the user. The device, which is compatible with popular microcontrollers and microcomputers such as Arduino, STM32 or Raspberry Pi, offers a flexible programming environment thanks to this feature. It also allows the user to have full control in the Master-Slave relationship by offering a user-controlled simulation. With PanMETRON's innovative FUNCTION principle, all types of development boards become user-friendly and tests performed via the simulator become more accessible.
The simulator stands out with its safety-focused design. Safety features such as overcurrent, voltage and temperature control support the long-term use of the device while also ensuring user safety. Temperature control can be done with the help of an aluminum heat sink and a 10 K NTC thermistor; this provides the user with reliable feedback during battery simulation processes. The device is manufactured in accordance with advanced safety standards for all types of battery simulation applications.
This simulator allows users to analyze battery dynamics in detail, while offering the following benefits:
The PanMETRON Universal Battery Simulator offers a wide range of compatibility with the ability to simulate all battery types with a fully charged voltage below 5V. This feature makes the device versatile for evaluating the operating conditions and performance of different battery types. Compatible with Li-Ion, NiMH and other popular battery types, PanMETRON allows the user to safely simulate and analyze battery processes.
Especially the popular use of Li-Ion batteries has become a frequently required feature in the design and testing processes of battery devices. The PanMETRON simulator can simulate the charge, discharge and load characteristics of these batteries under a certain control and offers the opportunity to fully analyze the battery dynamics in this process. The simulator provides realistic results to the user by safely managing the charge and discharge policies specific to each battery type.
This wide compatibility of the device provides an ideal test environment especially for engineers, researchers and students. For example, a user who wants to simulate battery cells connected in series or parallel can ensure that the device imitates the battery structure by paying attention to the voltage and current limits offered by the PanMETRON simulator. PanMETRON, which also offers an ideal environment for batteries with lower voltage values such as NiMH batteries, allows the analysis of many parameters that affect the operating performance of battery devices with this wide compatibility.
PanMETRON Universal Battery Simulator allows users to use the development environment they want. With this feature, it stands out as an ideal simulator for users looking for software and hardware flexibility. The controllability of the simulator is compatible with commonly used development boards such as Arduino, STM32, Raspberry Pi and works with a special system called FUNCTION (Processor Offline). In this way, users can easily manage the device through their familiar development environments.
The FUNCTION system allows users to control the device with their own development boards and programming languages. This flexibility is a great advantage, especially in projects that require different hardware platforms in the engineering field. PanMETRON, thanks to its high compatibility, allows users to freely customize the device and make the simulator a part of their own projects.
In addition, all control and feedback voltages of the device are limited to below 3.3V, eliminating the compatibility problem with STM32 or other low-voltage development boards. Thanks to this feature, users can integrate the device with any microcontroller or microcomputer. In addition, the simulator can be used without the need for external control boards, which contributes to the flexible use of the device in rapid prototyping and testing processes. As a result, PanMETRON accelerates software development processes, allowing users to easily integrate and control all features of the device.
PanMETRON is designed with a unique simulation principle to analyze the performance of battery-powered devices in detail. The main purpose of battery simulation is to recreate the electrical properties and behavior of the battery in a reliable way. The simulation principles offered by PanMETRON allow the charging and discharging behavior of batteries to be studied in a realistic and safe environment.
The simulator is an ideal test platform for users who want to understand how batteries react under charging, discharging and over-discharging conditions. For example, an engineer who wants to examine how a battery’s protection mechanisms work under over-charging or over-discharging conditions can observe battery behavior in detail thanks to the PanMETRON simulator’s precise control features. These simulation principles allow a reliable replication of the battery’s real-world dynamics.
This simulator is also very useful for understanding the factors that affect the battery life. For example, how does the performance of a battery that is constantly operating at low voltage change or how does a battery behave when charged for a long time at a certain current value? The answers to questions such as these can be obtained as a result of tests performed with the PanMETRON simulator. These simulation principles are one of the greatest values that the device offers to potential customers and ensure that it stands out as a reliable tool in the design processes of battery-powered devices.
The precise power and current control features offered by PanMETRON allow users to accurately measure battery capacities. This feature, combined with the device's electronic load function, allows users to perform high-precision testing. With the device's current output capacity of up to 2.5A and voltage output capacity of up to 5V, battery capacity, efficiency and durability tests can be performed with the highest accuracy.
In electronic load mode, operations such as discharging the battery and measuring its remaining capacity are very important. PanMETRON performs these operations reliably thanks to its ability to control current in constant current, constant resistance or constant power modes. For example, in constant current mode, the user can specify a specific current value using the REFC pin of the device and the simulator discharges the battery while maintaining this value. During this process, the stability of the charge and discharge voltages is maintained and the full capacity test of the battery can be performed.
Temperature, one of the most important factors determining the performance of the battery, is precisely controlled in the PanMETRON simulator. The 10K NTC thermistor in the device monitors the temperature levels of the battery and warns the user in case of any overheating. Temperature data is transferred to the outside as voltage via the THV pin and these values can be converted to temperature values according to the thermistor table. In particular, preventing the battery from overheating under high current or voltage is very important for battery safety. For this reason, the PanMETRON simulator provides the user with safe test conditions and allows the battery to be tested reliably.
These precise power and current control capabilities make PanMETRON the preferred choice in environments requiring high accuracy, such as laboratories, research institutions and universities. An ideal test platform for engineers and researchers, this device enables realistic evaluation of battery performance and safety features.
PanMETRON - Universal Battery Simulator
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