A resistor array primarily acts as a voltage divider, splitting the voltage in a circuit into smaller divisions. They feature multiple resistors connected in a circuit pattern. These devices are ideal for electrical circuits to limit the flow of electricity and where the resistance is set to a special value that cannot be changed. In addition, they also protect other electronic devices from harm or damage.
Are there other names for resistor network arrays?
They are also referred to as resistor networks, array resistors, or resistor network arrays.
How do they work?
A resistor network comprises a combination of multiple resistors configured in a pattern. Most resistor networks use resistors connected in series, but some resistor networks use resistors in parallel or series-parallel designs.
Where are arrays resistors used?
Resistor arrays are simple when you need multiple resistors connected at one end to the same point in a circuit. They have been widely used in electronic applications. The most common uses are:
- Hardware and computers
- Analog-to-digital and digital-to-analogue conversion
- Voltage divider for power supply.
Resistor Networks:
A network resistor combines several resistors made from a standard structure. Used in electrical circuits to prevent current flow and maintain a safe current in electrical equipment. Other items are attached using solder.
How do resistor networks work?
A network resistor is designed to reduce the current-voltage flowing from one terminal to another. In turn, this protects the electrical circuit from shock, heat, and humidity. It is ideal for analogue-to-digital and digital-to-analogue conversion, voltage distribution, or computers.
Types of resistor networks
There are several different kinds of resistor networks. These include:
- Single Row Pins - Separate individual resistors with two pins each. Or a pin with all the resistors connected to the pins.
- Double Row Pins - Isolated individual resistors with two adjacent pins. Alternatively, a single pin with all the resistors is marked on the pins. Next, double row pins can separate the resistor with two pins next.
Advantages of resistor networks:
The main advantage of resistive networks is that they save space and time. As with pull-up resistors on a microprocessor bus, you use resistors at the same value over and over. For example, placing a component with 8 resistors doesn't have the space between saving space and the effort of powering multiple components with a single resistor.
- They're all comparable in resistance, tolerance, and maximum working voltage.
- They offer a particular recommendation regarding the transition due to heat transfer that results from the thermal substrate.
- Simply put, resistor networks offer various benefits and can be very effective for electrical and board design problems.
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