OSOPTA5001CT1

Series:	OSOP
Packaging:	Tape & Reel (TR)
Part Status:	Active
Circuit Type:	Isolated
Resistance (Ohms):	5k
Tolerance:	±0.25%
Number of Resistors:	10
Resistor Matching Ratio:	±0.025%
Resistor-Ratio-Drift:	±5 ppm/°C
Number of Pins:	20
Power Per Element:	100mW
Temperature Coefficient:	±25ppm/°C
Operating Temperature:	-55°C ~ 125°C
Applications:	--
Mounting Type:	Surface Mount
Package / Case:	20-SSOP (0.154", 3.90mm Width)
Supplier Device Package:	--
Size / Dimension:	0.344" L x 0.154" W (8.74mm x 3.91mm)
Height - Seated (Max):	0.068" (1.73mm)

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Introduction to OSOPTA5001CT1 application field and working principle

Resistor Networks, arrays, or networks of resistors, comprise a key circuit component for providing various electronic functions, which are used in all kinds of electrical and electronic design, including power electronic, control and communication equipment. OSOPTA5001CT1 is one of such networks, with a two-wire direct connection, having a resistance of 500 ohms. It is made of low-profile (0.2mm) thick film, asphalted over an insulating substrate.

Properties

The main characteristics of OSOPTA5001CT1 networks are:

• Resistance value of 500 ohms
• Voltage Rating of 25 volts
• Insulation resistance of more than 1000 megohms
• Maximum operating temperature of 155°C

The use of thick film technology provides OSOPTA5001CT1 networks with good stability over time and a wide range of operating temperature. In addition, they offer very high resistance among wires, which avoids interference.

OSOPTA5001CT1 Network Types

OSOPTA5001CT1 networks can be found in two main types: single-node networks and multi-node networks.The single-node networks are usually found in low-current devices, such as linear circuits, and don\'t require much complexity. They consist of a single device and usually have a low component count.Multi-node networks are more complex and are usually implemented in higher-current designs, like circuits with many circuit nodes. These can include designs such as complex power electronics circuits, RF circuits, and multi-channel audio processing.

Working Principle

OSOPTA5001CT1 networks are passive components and do not need any external power source. The way they work is based on the basic physical properties of a resistor: its resistance to the flowing current.First and foremost, the current will be equally distributed among the resistors, since they share the applied voltage. In other words, if multiple resistors are connected in series, the current will be the same throughout the circuit, while the voltage will drop off linearly.This shared voltage causes the power dissipated in each resistor (which is the voltage multiplied by the current) to be the same for all of them. In single-node networks, the respective resistances of the devices act as voltage dividers and the respective currents add up.Therefore, in multi-node networks, the number of resistors and their respective resistances will determine the voltage and current in each node, allowing for sophisticated control of the overall current and voltage.

Applications

OSOPTA5001CT1 networks are widely used in a wide range of electrical and electronic design. The most common applications are:

• Power electronic circuits
• Control circuits
• Communication circuits
• RF circuits
• Multi-channel audio processing circuits
• High precision linear regulator circuits
• Power distribution in hybrid vehicle architectures

The combination of its resistance, stability over time, low profile and non-interference features make OSOPTA5001CT1 networks ideal for use in power electronics, control systems, communication/networking, and audio processing equipment.

Conclusion

In conclusion, OSOPTA5001CT1 networks are a low-profile, reliable and stable type of resistor networks, ideal for applications where precise control of current and voltage is of as much importance as the interference rejection. These networks are widely used in a variety of applications, where they offer a great combination of features that make them the ideal choice for power electronics, control systems, communication/networking and audio processing.

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