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Top 5 Electronic Components for Regulated Power Supply

  • Contents

Power supply is inseparable from electronic products.
The main function of the power supply is to obtain the voltage required by each device through the low-voltage direct current supplied by the outside through the power management device, and meet the requirements of current, ripple, and startup sequence.
Depending on the specific requirements of the device, multiple DC-DC circuits may be required in different ways.
There are two main ways of voltage stabilization:

  • Linear regulator
  • Switching regulator

In the following paragraphs, we will introduce you to these two voltage regulation methods, as well as 5 classic regulated power supply devices. Hope you enjoy.

Catalog

I Linear voltage stabilization

II Switching regulator

III Top 5 Regulated Power Supply Electronic Components

3.1 78XX

3.2 79XX

3.3 LM317/LM117

3.4 1117 series

3.5 TPS51200

IV Conclusion

I Linear voltage stabilization

A variable resistor formed by a triode that works in a linear state performs constant current control on the load to obtain a stable voltage output.

This method for linear voltage stabilization is simple in structure and high in noise suppression (up to 60dB, which is more than 1000 times), but generally the efficiency is relatively low. The voltage can be stabilized only when the input voltage is higher than the output voltage by a certain pressure difference, and it can only be used for step-down conversion. .

The pressure difference of the conventional linear regulator is as high as 2.5V, so the efficiency is relatively low, and the LDO linear regulator can achieve a lower pressure difference.

For example, when the load is as high as 1A, the pressure difference can be reduced to 350mA. Of course, its efficiency depends on the specific input and output voltages used.

II Switching regulator

Switching regulator is composed of a transistor that works in switching mode, an inductance of energy storage, and a capacitor that smoothes the ripple, and a stable output voltage is obtained by means of PWM or PFM.

The advantage of the switch mode is that it can step down, step up, and back pressure, the input voltage range can be very wide, and the efficiency can be very high (some can reach more than 95%).

The disadvantage is that the peripheral circuit is more complicated, and the selection of peripheral components is more sensitive.

In addition, high-frequency switching signals will cause greater interference and ripple on the voltage output.

III Top 5 Regulated Power Supply Electronic Components

Although power supply technology is changing rapidly, a variety of high-efficiency, highly integrated, high-performance devices continue to be introduced.

But according to statistics, the top ten devices for voltage regulators are some of the classic devices.

After all, these devices can meet most of the application scenarios, and cost-effective. So let's see what these devices are!

3.1 78XX

LM7805CV Regulator

LM7805CV regulator

The most classic linear voltage regulator has a very simple structure. It can work with only one capacitor at the input and output ends. It is also called a three-terminal regulator. Many original manufacturers make this device, and the functions and pins are compatible. You can see MC78xx, LM78xx, etc., and xx represents the voltage value of the regulated output. For example, LM7805 is a regulator with a regulated output of 5V. MC7824 is a voltage regulator whose regulated output is 24V.

The output current of 78xx series devices is also different. For example, the output current of LM7805 is a maximum of 1A, the output current of LM78M05 is a maximum of 500mA, and the output current of LM78L05 is a maximum of 100mA.

Their packaging is also different. The 78L05 package with only 100mA can be as small as a triode. The 78xx series devices require a voltage difference of 2.5V or more between the input voltage and the output voltage. Its conversion efficiency is Vout/Vin. For example, input 12V voltage to get a 5v regulated output, and its efficiency is 5/12 = 41.6%. If the load current reaches 1A, the heat loss on the 7805 device is as high as (12- 5) *1 = 7W, which is why a heat sink must be added to many 78xx series devices;

3.2 79XX

79XX Series Pinout

79xx series

79xx and 78xx are often used in combination. 78xx gets a positive voltage to ground, 79xx gets a negative voltage to ground, except that it is the same as 78xx;

3.3 LM317

LM317 Linear Regulator

LM317 linear regulator

The output voltage of the above 78xx and 79xx devices is fixed and cannot be adjusted. In contrast, LM317 is a linear regulator with adjustable output voltage, and there are also different packages that support different current outputs, and the maximum output circuit can be as high as 1.5A. In addition, LM317 also requires a voltage difference of more than 2.5v to work normally, and it also has the same advantages and disadvantages as 78xx;

3.4 1117 series

1117 series

1117 series linear regulators

The 1117 series of devices are very classic LDO linear regulators. Compared with 78xx and LM317 series devices, the difference between its required input voltage and output voltage is 1.2V, so it can be widely used in battery-powered portable systems. For example, through 4 1.25V batteries (reaching 5V when full power), when the power is not enough to 4.5V voltage, it can still get 3.3V regulated output through 1117-3.3 for the 3.3V circuit on the board to work.

Many manufacturers have 1117 versions, such as TLV1117, LT1117, AMS1117, LM1117, etc. The output voltage also has a variety of fixed value versions and adjustable output versions. It can be said that it is the best alternative to 78xx and LM317. Of course, the output current of 1117 is only up to 800mA, and many small package versions are not suitable for working with large voltage differences under high current conditions;

3.5 TPS51200

TPS51200

TPS51200 LDO

TPS51200 is also an LDO from TI, dedicated to the power supply system of various DDR memories. Since almost all high-speed embedded systems will use DDR memory, it is not uncommon for this device to be widely adopted. The control of different output voltages through external voltage divider resistors brings a high degree of flexibility to the use of the device. Its output current is as high as 3A, so it meets the current requirements of high-speed memory.

IV Conclusion

The above are several classic devices based on linear voltage regulation conversion, with different voltage differences and different currents, which can meet the application in different fields. We can make reasonable choices according to their needs. The main advantage of linear regulation is low noise. Therefore, it is widely used in the power supply of analog circuits and radio frequency circuits. Its disadvantage is that it can only be used for step-down. If the output voltage is higher than the input voltage, the linear regulator will be powerless.

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