VSSR1601101GTF

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Resistor Networks, Arrays can be divided into those that are composed of single resistors connected in series, parallel, or combinationy of both, and integrated resistor networks and arrays composed of a large number of resistors integrated on a single chip. The VSSR1601101GTF is an integrated resistor network manufactured using surface-mount technology (SMT), which is composed of a series array of 16 resistor elements with each element having a resistance of between 0Ω and 10kΩ over a temperature range of from -55°C to +125°C. It is a versatile system-on-chip (SoC) resistor network designed to provide a low-cost, high-speed, low-power solution for a wide variety of applications.

The VSSR1601101GTF is designed to provide many benefits over single resistors or discrete arrays of resistors. Discrete arrays of resistors require a large number of external pins and so are inadequate in applications where space is a premium, such as System on Modules (SoMs); whereas integrated resistor networks such as the VSSR1601101GTF provide a much higher density solution. As each of the 16 independent resistor elements of the VSSR1601101GTF are electronically interconnected, it provides the advantages of individual resistors but with ease of assembly.

The VSSR1601101GTF is particularly suitable for applications where precision resistive load cells, such as those used in weighing systems, are required. In such applications, the accuracy and repeatability of the VSSR1601101GTF enable an excellent balance between weight and relaxation of the resistance cells. It can also be used for potentiometric applications, such as position and speed measurements, and can easily be mounted on printed circuit boards (PCBs). In addition, the VSSR1601101GTF is ideal for applications requiring resistor window compensation, such as differential amplifiers, due to its ability to maintain a constant resistance over temperature and time.

When it comes to applications requiring higher accuracy, such as in accurate pressure measurements, the VSSR1601101GTF provides a much higher grade of accuracy than a discrete or linear resistor network. For example, it can achieve accuracies better than: 0.1% at +25°C, 0.2% at +125°C and typically (0.1%+3Ω) over a temperature range of -55°C to +125°C. The VSSR1601101GTF can also be used in applications requiring extremely low-resistance values, such as audio applications, thanks to its ability to provide constant low resistance values off-chip, regardless of temperature.

The working principle of the VSSR1601101GTF revolves around its ability to accurately control the relationship between the voltage applied to its terminal pairs and the value of the resistance. Each resistor element in the VSSR1601101GTF can provide a wide range of resistance values, from 0Ω up to 10kΩ in steps of 0.1Ω. The operating principle of the VSSR1601101GTF is based on the use of voltage division using a resistor network to control the voltage applied to a single resistor element. This allows the resistance of the single element to be accurately adjusted to the desired value using a simple voltage control circuit. In this way, highly accurate resistive load cells can be built with a single integrated device, as required for certain types of precision measurements.

The VSSR1601101GTF is also capable of providing a high-speed, low-power solution for a range of applications. Its high-speed operation makes it ideally suited to data acquisition systems and computer interfacing applications, providing a robust, low-power solution with low resistance values and fast response times. In addition, since the VSSR1601101GTF uses surface-mount technology, it can be installed with ease, allowing for faster assembly and more efficient use of space.

The VSSR1601101GTF is an integrated resistor network manufactured using surface-mount technology, and is composed of a series array of 16 resistor elements with each element having a resistance of between 0Ω and 10kΩ over a temperature range of from -55°C to +125°C. It offers multiple advantages over traditional discrete resistor and resistor arrays and can be used in a wide range of applications, in areas such as weigh systems, differential sensors, potentiometric devices and audio systems. It uses a simple voltage control principle to provide highly accurate resistive load cells, while its high-speed operation and low-power design makes it suitable for data acquisition systems and computer interfacing applications.

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