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The XTR115 is a high-precision current transmitter that converts a low sense voltage into a linear output over a wide range of sense voltages. This device can measure tiny currents and send a transmittable voltage across long distances. Below are its types based on output.
XTR115A
The XTR115A has an output proportional to the input voltage difference Vref and is designed to folks who prefer flexibility in their circuit design. With this, engineers can calibrate their systems effectively. Also, it has a wide supply voltage range, which makes it suitable for various applications. Although it is relatively less popular than its brother models, it is adaptable for distinct needs.
XTR115C
The XTR115C based on a 1 mV sense voltage, is designed for users who work with low-power applications. This model provides a linear output for small input signals, ensuring accuracy in low-voltage environments. It has high sensitivity and gives a significant output for small input data, making it great for fine resolution. Moreover, it's compact and can fit into small designs without space issues.
XTR115IDBZ
XTR115IDBZ is an XTR115 Precision current transmitter intended for automotive and industrial applications that require wider temperature ranges and increased robustness. Its great temperature tolerance makes it adapt to different environments. Also, it has an extended performance range that maintains stability under various conditions. This device is fit for mission-critical environments where dependability matters.
XTR115IDBZRG4
XTR115IDBZRG4 is an automotive-grade version built for anti-humidity, temperature shock, and vibration standards. This transmitter is perfect for hi-reliability automotive systems thanks to its extended lifespan and fantastic tolerance to environmental conditions. It has robustness, thus maintaining performance in severe conditions, and features great accuracy for dependable transmission across automotive applications.
XTR115IDBZG
XTR115IDBZG is another automotive precision current transmitter from factories across the globe. This model maintains output linearity across a broad temperature and supply range. A few typical characteristics are high reliability coupled with low drift. It meets AEC-Q100 specifications, making it ideal for engineers who need long-lasting ICs in harsh environments. This model provides excellent functionality and stability for demanding applications.
The XTR115 is designed for industrial, telemetry, and process-control applications. It employs a linear transmitter to produce an accurate output voltage proportional to the sensed small input voltage.
Precision Current Output
The XTR115's primary feature is its precision current output, which clutches linearity up to 20 mA. This property guarantees that the input is proportionate to the output; thus, the device's accuracy isn't affected by changes in temperature or voltage supply. This will enable it to work well even when there is a slight variance in required signals.
Wide Supply Voltage Range
The wide supply voltage range allows the XTR115 to operate between 4 V and 30 V. This feature provides flexibility when designing circuits and ensures compatibility with many power sources. In addition, it maintains performance over a broad voltage range, so it can be applied in different systems.
Temperature Insensitivity
The device is capable of operating over a temperature range of -55 °C to 125 °C. This degree of insensitiveness ensures reliability in extreme conditions, ideal for applications in automotive and industrial environments. In addition, this feature contributes to the overall performance and reliability of mission-critical systems.
Low Power Consumption
The low power consumption of the XTR115 makes it well-suited for battery-powered applications. It minimizes the power draw on the system, thus increasing the effectiveness of energy. This is important for users who need long-lasting battery efficacy without frequent recharges or replacements.
Single-Supply Operation
The XTR115 operates on a single supply, unlike many other transmitters that require dual supplies for operation. This feature simplifies system design and reduces the component count. Many users appreciate this for being easy to implement, particularly in constrained spaces. This device thus lends itself to numerous applications that require minimal circuitry.
The durability of the XTR115 is primarily ensured through robust fabrication technology and circuit design to withstand several environmental factors.
Extended Temperature Range
The XTR115 can work in the temperature range of -55 °C to 125 °C owing to its durability. This makes it suitable for harsh environments. In addition, its tolerance to extreme temperatures guarantees dependable functioning in different industrial and automotive applications. Therefore, it is constructed to survive challenging conditions while maintaining performance and reliability.
Automotive Grade Testing
XTR115IDBZ and XTR115IDBZRG1 are auto-grade variants meeting the AEC-Q100 standard, which guarantees reliability in anti-shock, humidity, and vibration features. This application makes it suited for automotive designs and other systems where durability is essential. Also, the rigorous tests ensure the device can operate for many years in stressful situations.
Low Drift and Stability
XTR115 maintains low output drift and voltage reference stability, thus ensuring long-term accuracy with no sign of drifting or degradation. This makes it ideal for applications where consistent performance is desired over long periods. Its stability contributes to overall durability since users do not have to recalibrate the system frequently.
Robust Packaging
The XTR115 is designed with an integrated circuit in mind, specifically intended for industrial applications. This prevents damage from bad handling. The quality of the materials used in constructing the package helps the device's internal components stay protected from external stresses. Therefore, its packaging ensures functionality throughout the product's life and thus is fit for mission-critical applications.
XTR115's commercial value lies in its wide application range, precision, and ability to operate in various environments, thus making it highly desired in different industries.
Versatile Industrial Application
The XTR115 current transmitter is instrumental in process control, monitoring, and automation in industrial settings. Its wide supply voltage range coupled with temperature insensitivity ensures reliability in diverse conditions. Its accuracy increases efficiency by streamlining the data transmission process. Therefore, any industry that relies on precise measurements will find this device valuable.
Precision in Telecommunications
In telecommunications, the XTR115 handles remote sensors and equipment powered by 4-30 V. Its ability to maintain signal integrity increases system reliability and cuts down on maintenance costs. Also, with good performance and known accuracy, this device enables smooth communication and efficient operations in telecommunications.
Cost Savings in Battery-Powered Systems
XTR115 is low-power so that it can be integrated into battery-powered systems without draining the battery quickly. This prolongs battery life, thus enabling users to operate their equipment longer without needing a recharge. In consumer goods and IoT devices, the power efficiency reduces operating costs, making it an ideal solution for applications relying on limited power resources.
High Accuracy in Automotive Systems
Automotive applications heavily depend on the XTR115 to keep system performance. In these applications, people value accuracy, dependability, and robustness; this device is designed to meet all these characteristics. It shows great precision in current measurements for safety-critical features like monitoring sensors and control systems. Thus, the automotive industry reaps rewards concerning enhanced performance and reduced maintenance.
Increased Demand in IoT
With the growing trend toward IoT systems, the need for reliable current transmitters like the XTR115 keeps increasing. The effectiveness of power and precision makes it a desirable choice for connected devices, sending data consistently over long distances. As more industries embrace IoT technology, so will the importance of this transmitter, thus increasing supply to meet demand.
In choosing the ideal XTR115, one must consider several factors, such as application requirements, temperature range, and accuracy needed.
Assessing Current Range
The first thing is to evaluate the current range of the application in telemetry and industrial contexts. People should make sure that the XTR115 variant they choose supports required current levels. Don't forget that operating efficiency highly depends on linear output being proportional to input within the device's specified current range. This ensures accurate signal transmission without distortion or loss.
Temperature Coefficient
It's important to consider the temperature coefficient in the space of application. For applications in extreme environments, it is better to use an automotive-grade XTR115 variant, such as the XTR115IDBZRG4. This device is capable of operating over extended temperature ranges without performance degradation. It ensures reliability and stability over time in both hot and cold climates.
Supply Voltage Compatibility
Different applications may need different supply voltages, so it's important to check the compatibility of the XTR115 model with voltage requirements. The XTR115 operates across the 4-30 V supply voltage range, adding flexibility to the circuit design. Thus, ensure the selected model meets the required voltage range to guarantee optimum functionality.
Output Configuration
XTR115B, XTR115IDBZ, and other types are designed to give specific output configurations. Therefore, it is important to consider whether people need a voltage or current output based on circuit requirements. Voltage output provides greater signal flexibility over long distances with excellent impedance, while current output is more immune to noise interference. Choosing the correct output configuration ensures that the application attains the desired result with fidelity.
Application Environment
Think of the application environment for which people will use this device. XTR115 models such as XTR115IDBZRG4 are designed for applications where they are likely to be exposed to intensive anti-shocks, humidity, or vibrations. The Robust integrated circuit of these devices makes them fit for such environments. This ensures that the transmitter keeps working well even after facing stressful physical conditions.
A1: The XTR115's durability comes from its extended temperature operating range, built-in high precision, and robust design. These factors ensure reliable performance in various industrial and automotive applications. Low drift keeps the output stable over time, while shock and vibration tolerance further enhance durability.
A2: The XTR115 is used in industries like oil and gas, manufacturing, automotive, telecommunications, and medical, where precise current transmission over varying distances and conditions is vital for monitoring, control, and data acquisition. Its versatility makes it suitable for many applications requiring reliability and accuracy.
A3: When selecting the XTR115 model, it's important to consider the application requirements, such as the needed current range, supply voltage, and temperature coefficient. For instance, different variants, like the XTR115C, are optimized for low-voltage, low-power applications, while others are designed for industrial environments with extended temperature ranges.
A4: The XTR115 operates within the -55 °C to 125 °C range, hence ensuring reliable performance in extreme thermal conditions. This wide range makes it suitable for various industries, from automotive to telecommunications, where environmental conditions can drastically affect electronic performance. These features enhance its dependability in hostile and demanding environments.
A5: The XTR115 provides high accuracy, low power consumption, and strong environmental tolerance, making it adaptable to industrial, automotive, IoT, and telecommunications scenarios. Its ability to deliver precise current transmission ensures reliable performance in numerous environments, thus enhancing operational efficiency and reducing the need for frequent maintenance.