MPMT8001BT1 Datasheet/PDFResistor Networks, Arrays
The MPMT8001BT1 Resistor Network is a monolithic integrated circuit that offers significant advantages over discrete resistors in terms of space, weight and cost. This article will discuss the application field and working principle of this integrated resistor network.
Application Field
The MPMT8001BT1 Resistor Network is a versatile integrated solution for a wide range of applications. It can be used in signal and power conditioning, digital-analog conversion, frequency division, filtering and compensation, gain control, balancing circuits, and voltage dividers. It is suitable for a variety of tasks, including general-purpose analog switching and signal routing. In addition, it can serve as a pulse width modulation (PWM) control and switching device and as an embedded analogue signal conditioning circuit.
Working Principle
The MPMT8001BT1 Resistor Network is a monolithic integrated circuit consisting of an array of resistors and capacitors embedded in a single package. The individual resistors and capacitors are arranged in a regular, symmetrical pattern. Each one is connected to a single input line for easy integration with other circuits. The network’s outputs represent the sum of the individual resistor and capacitor values. This arrangement gives the network a high level of precision and a wide range of frequencies over which it can operate.
The key feature of the MPMT8001BT1 Resistor Network is its ability to provide a wide gain control range with a precisely controlled impedence. This is achieved by connecting the output of the resistor network to either a base resistor or a shunt resistor. In the case of a base resistor, the output impedance is inversely proportional to the gain. Similarly, in the case of a shunt resistor, the gain can be varied simply by changing the resistor value. This makes the MPMT8001BT1 Resistor Network ideal for use in controlling gain or signal conditioning.
The main advantage of using the MPMT8001BT1 Resistor Network over traditional discrete resistors is in terms of space and cost. The monolithic construction of the network allows for a much smaller footprint than discrete resistors, which in turn helps to reduce costs. In addition, the symmetrical design of the network improves production yields compared to discrete resistors, which can help manufacturers further reduce costs.
The MPMT8001BT1 Resistor Network is a versatile integrated circuit that offers several advantages over discrete resistors. Its capacity for precise gain control offers numerous applications, and its small footprint and cost savings make it an attractive option for manufacturers.