EXB-F10V152G

Number of Pins:	10
Height - Seated (Max):	0.195" (4.95mm)
Size / Dimension:	0.986" L x 0.100" W (25.04mm x 2.54mm)
Supplier Device Package:	10-SIP
Package / Case:	10-SIP
Mounting Type:	Through Hole
Applications:	--
Operating Temperature:	-55°C ~ 125°C
Temperature Coefficient:	±200ppm/°C
Power Per Element:	200mW
Series:	EXB
Resistor-Ratio-Drift:	--
Resistor Matching Ratio:	--
Number of Resistors:	5
Tolerance:	±2%
Resistance (Ohms):	1.5k
Circuit Type:	Isolated
Part Status:	Obsolete
Packaging:	Bulk

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Resistor Networks, Arrays: EXB-F10V152G application field and working principle

The EXB-F10V152G is a type of resistor network used to control the flow of electrical current in devices. In essence, it is a network of resistors which cooperate with each other to allow current to be routed and controlled in different ways.The EXB-F10V152G has a three-terminal structure, containing a central connection and two output connections. The central connection is connected to the power source, while the two output connections can be connected to different electronic components. It is this three-terminal structure which allows the EXB-F10V152G to provide direction in the flow of electricity.The main application for this type of resistor network is in a wide range of devices, from portable electronics, to high-speed precision controls and test equipment. Such devices are often designed to be as energy efficient as possible, making use of the EXB-F10V152G\'s ability to control the amount of electrical current that passes through.The working principle behind the EXB-F10V152G is based on Ohm\'s law, which states that the current passing through a conductor is proportional to the voltage applied, divided by the resistance of the conductor. In this case, the central connection is connected to the power source and acts as the voltage supply. The two output connections act as the resistors, and so the amount of current that can pass through is determined by the resistance and voltage values.The resistor network can be configured in various ways, such as in series or in parallel. In series connections, the current is divided equally between the two output connections. In parallel connections, the current is distributed in such a way that each output connection receives an equal proportion of the current.The EXB-F10V152G is also known for its high accuracy in controlling the flow of current. This is due to its ability to accurately measure the resistance values of its components. This means that the current passing through can be finely tuned and monitored, making the EXB-F10V152G ideal for precision control and testing purposes.The EXB-F10V152G is also used in situations where power needs to be precisely distributed. By connecting one output connection to an electronic component, and the other output connection to another electronic component, the EXB-F10V152G can be used to control the flow of current so that the exact amounts of power are applied to each electronic component.Overall, the EXB-F10V152G is a reliable and efficient way to control the flow of electrical current in a wide range of electronic devices. Its ability to measure and control the flow of electricity with such precision makes it an invaluable component for many complex test and control systems. As such, it is likely to remain a popular choice for a variety of applications for many years to come.

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