Car battery charger with adjustment circuit. DIY car charger: simple circuits

A similar manufacturing option is shown in the video

Rectifier

This memory is somewhat more complicated. This scheme is used in the cheapest factory devices:

To make a charger, you will need a mains transformer with an output voltage of at least 12.5 V, but not more than 14. Often a Soviet transformer of the TS-180 type is taken from tube TVs, which has two filament windings for a voltage of 6.3 V. When they are connected in series (the purpose of the terminals is indicated on the transformer body) we get exactly 12.6 V. A diode bridge (full-wave rectifier) ​​is used to rectify the alternating current from the secondary winding. It can either be assembled from individual diodes (for example, D242A from the same TV), or you can buy a ready-made assembly (KBPC10005 or its analogues).

The rectifier diodes will heat up noticeably, and you will have to make a radiator for them from a suitable aluminum plate. In this regard, using a diode assembly is much more convenient - the plate is attached with a screw to its central hole using thermal paste.

Below is a diagram of the pin assignments of the TL494 microcircuit, the most common in switching power supplies:

We are interested in the circuit connected to pin 1. Looking through the traces connected to it on the board, find the resistor connecting this leg to the +12 V output. It is this that sets the output voltage of the 12-volt power supply circuit.

We have repeatedly talked about all kinds of chargers for car batteries on a pulse basis, and today is no exception. And we will consider the design of an SMPS, which can have an output power of 350-600 watts, but this is not the limit, since the power, if desired, can be increased to 1300-1500 watts, therefore, on such a basis it is possible to build a starting-charger device, because at a voltage of 12 -14 Volts from a 1500 watt unit can draw up to 120 Amperes of current! well of course

The design attracted my attention a month ago, when an article caught my eye on one of the sites. The power regulator circuit seemed quite simple, so I decided to use this circuit for my design, which is very simple and does not require any adjustment. The circuit is designed for charging powerful acid batteries with a capacity of 40-100A/h, implemented on a pulse basis. The main power part of our charger is a mains switching power supply with power

Just recently I decided to make several chargers for car batteries, which I was going to sell on the local market. There were quite beautiful industrial buildings available; all you had to do was make a good filling and that was it. But then I encountered a number of problems, starting from the power supply and ending with the output voltage control unit. I went and bought a good old electronic transformer like Tashibra (Chinese brand) for 105 watts and started reworking it.

A fairly simple automatic charger can be implemented on the LM317 chip, which is a linear voltage regulator with an adjustable output voltage. The microcircuit can also work as a current stabilizer.

A high-quality charger for a car battery can be purchased on the market for $50, and today I will tell you the easiest way to make such a charger with minimal expenditure of money; it is simple and even a novice radio amateur can make it.

The design of a simple charger for car batteries can be implemented in half an hour at minimal cost; the process of assembling such a charger will be described below.

The article discusses a charger (charger) with a simple circuit design for batteries of various classes intended to power the electrical networks of cars, motorcycles, flashlights, etc. The charger is easy to use, does not require adjustments while charging the battery, is not afraid of short circuits, and is simple and cheap to manufacture.

Recently, I came across a diagram of a powerful charger for car batteries with a current of up to 20A on the Internet. In fact, this is a powerful regulated power supply assembled with just two transistors. The main advantage of the circuit is the minimum number of components used, but the components themselves are quite expensive, we are talking about transistors.

Naturally, everyone in the car has cigarette lighter chargers for all kinds of devices: navigator, phone, etc. The cigarette lighter is naturally not without dimensions, and especially since there is only one (or rather, a cigarette lighter socket), and if there is also a person who smokes, then the cigarette lighter itself must be taken out somewhere and put somewhere, and if you really need to connect something to the charger, then using the cigarette lighter for its intended purpose is simply impossible , you can solve the connection of all kinds of tees with a socket like a cigarette lighter, but it’s like that

Recently I came up with the idea of ​​assembling a car charger based on cheap Chinese power supplies with a price of $5-10. In electronics stores you can now find units that are designed to power LED strips. Since such tapes are powered by 12 Volts, therefore the output voltage of the power supply is also within 12 Volts

I present the design of a simple DC-DC converter that will allow you to charge a mobile phone, tablet computer or any other portable device from a 12-volt car on-board network. The heart of the circuit is a specialized 34063api chip designed specifically for such purposes.

After the article charger from an electronic transformer, many letters were sent to my email address asking me to explain and tell how to power up the circuit of an electronic transformer, and in order not to write to each user separately, I decided to print this article, where I will talk about the main components that need will be modified to increase the output power of the electronic transformer.

Battery problems are not that uncommon. To restore functionality, additional charging is necessary, but normal charging costs a lot of money, and it can be done from available “trash.” The most important thing is to find a transformer with the required characteristics, and making a charger for a car battery with your own hands takes just a couple of hours (if you have all the necessary parts).

The battery charging process must follow certain rules. Moreover, the charging process depends on the type of battery. Violations of these rules lead to a decrease in capacity and service life. Therefore, the parameters of a car battery charger are selected for each specific case. This opportunity is provided by a complex charger with adjustable parameters or purchased specifically for this battery. There is a more practical option - making a charger for a car battery with your own hands. To know what parameters should be, a little theory.

Types of battery chargers

Battery charging is the process of restoring used capacity. To do this, a voltage is supplied to the battery terminals that is slightly higher than the operating parameters of the battery. Can be served:

• D.C. The charging time is at least 10 hours, during this entire time a fixed current is supplied, the voltage varies from 13.8-14.4 V at the beginning of the process to 12.8 V at the very end. With this type, the charge accumulates gradually and lasts longer. The disadvantage of this method is that it is necessary to control the process and turn off the charger in time, since when overcharging the electrolyte may boil, which will significantly reduce its working life.
• Constant pressure. When charging with a constant voltage, the charger produces a voltage of 14.4 V all the time, and the current varies from large values ​​in the first hours of charging to very small values ​​in the last. Therefore, the battery will not be recharged (unless you leave it for several days). The positive aspect of this method is that the charging time is reduced (90-95% can be reached in 7-8 hours) and the battery being charged can be left unattended. But such an “emergency” charge recovery mode has a bad effect on service life. With frequent use of constant voltage, the battery discharges faster.

In general, if there is no need to rush, it is better to use DC charging. If you need to restore battery functionality in a short time, apply constant voltage. If we talk about what is the best charger to make for a car battery with your own hands, the answer is clear - one that supplies direct current. The schemes will be simple, consisting of accessible elements.

How to determine the necessary parameters when charging with direct current

It has been experimentally established that charge car lead acid batteries(most of them) required current that does not exceed 10% of the battery capacity. If the capacity of the battery being charged is 55 A/h, the maximum charge current will be 5.5 A; with a capacity of 70 A/h - 7 A, etc. In this case, you can set a slightly lower current. The charge will continue, but more slowly. It will accumulate even if the charge current is 0.1 A. It will just take a very long time to restore the capacity.

Since the calculations assume that the charge current is 10%, we obtain a minimum charge time of 10 hours. But this is when the battery is completely discharged, and this should not be allowed. Therefore, the actual charging time depends on the “depth” of the discharge. You can determine the depth of discharge by measuring the voltage on the battery before charging:

To calculate approximate battery charging time, you need to find out the difference between the maximum battery charge (12.8 V) and its current voltage. Multiplying the number by 10 we get the time in hours. For example, the voltage on the battery before charging is 11.9 V. We find the difference: 12.8 V - 11.9 V = 0.8 V. Multiplying this figure by 10, we find that the charging time will be about 8 hours. This is provided that we supply a current that is 10% of the battery capacity.

Charger circuits for car batteries

To charge batteries, a 220 V household network is usually used, which is converted to reduced voltage using a converter.

Simple circuits

The simplest and most effective way is to use a step-down transformer. It is he who lowers 220 V to the required 13-15 V. Such transformers can be found in old tube TVs (TS-180-2), computer power supplies, and found at flea market “ruins”.

But the output of the transformer produces an alternating voltage that must be rectified. They do this using:

The above diagrams also contain fuses (1 A) and measuring instruments. They make it possible to control the charging process. They can be excluded from the circuit, but you will have to periodically use a multimeter to monitor them. With voltage control this is still tolerable (just attach probes to the terminals), but it is difficult to control the current - in this mode the measuring device is connected to an open circuit. That is, you will have to turn off the power every time, put the multimeter in current measurement mode, and turn on the power. disassemble the measuring circuit in reverse order. Therefore, using at least a 10 A ammeter is very desirable.

The disadvantages of these schemes are obvious - there is no way to adjust the charging parameters. That is, when choosing an element base, choose the parameters so that the output current is the same 10% of the capacity of your battery (or a little less). You know the voltage - preferably within 13.2-14.4 V. What to do if the current turns out to be more than desired? Add a resistor to the circuit. It is placed at the positive output of the diode bridge in front of the ammeter. You select the resistance “locally”, focusing on the current; the power of the resistor is larger, since excess charge will be dissipated on them (10-20 W or so).

And one more thing: a do-it-yourself car battery charger made according to these schemes will most likely get very hot. Therefore, it is advisable to add a cooler. It can be inserted into the circuit after the diode bridge.

Adjustable circuits

As already mentioned, the disadvantage of all these circuits is the inability to regulate the current. The only option is to change the resistance. By the way, you can put a variable tuning resistor here. This will be the easiest way out. But manual current adjustment is more reliably implemented in a circuit with two transistors and a trimming resistor.

The charging current is changed by a variable resistor. It is located after the composite transistor VT1-VT2, so a small current flows through it. Therefore, the power can be about 0.5-1 W. Its rating depends on the selected transistors and is selected experimentally (1-4.7 kOhm).

Transformer with a power of 250-500 W, secondary winding 15-17 V. The diode bridge is assembled on diodes with an operating current of 5A and higher.

Transistor VT1 - P210, VT2 is selected from several options: germanium P13 - P17; silicon KT814, KT 816. To remove heat, install on a metal plate or radiator (at least 300 cm2).

Fuses: at the input PR1 - 1 A, at the output PR2 - 5 A. Also in the circuit there are signal lamps - the presence of a voltage of 220 V (HI1) and a charging current (HI2). Here you can install any 24 V lamps (including LEDs).

Video on the topic

DIY car battery charger is a popular topic for car enthusiasts. Transformers are taken from everywhere - from power supplies, microwave ovens... they even wind them themselves. The schemes being implemented are not the most complex. So even without electrical engineering skills you can do it yourself.

Homemade battery chargers usually have a very simple design, and in addition, increased reliability precisely due to the simplicity of the circuit. Another advantage of making a charger yourself is the relative cheapness of the components and, as a result, the low cost of the device.

Why is a prefabricated structure better than a store-bought one?

The main task of such equipment is to maintain the charge of the car battery at the required level if necessary. If the battery discharge occurs near the house where there is the necessary device, then there will be no problems. Otherwise, when there is no suitable equipment to power the battery, and the funds are also insufficient, you can assemble the device yourself.

The need to use auxiliary means to recharge a car battery is primarily due to low temperatures in the cold season, when a half-discharged battery is a major and sometimes completely unsolvable problem unless the battery is recharged in time. Then homemade chargers for powering car batteries will become a salvation for users who do not plan to invest in such equipment, at least at the moment.

Operating principle

Up to a certain level, a car battery can receive power from the vehicle itself, or more precisely, from an electric generator. After this node, a relay is usually installed, responsible for setting the voltage to no more than 14.1V. In order for the battery to be charged to its maximum, a higher value of this parameter is required - 14.4V. Accordingly, batteries are used to implement such a task.

The main components of this device are a transformer and a rectifier. As a result, a direct current with a voltage of a certain value (14.4V) is supplied to the output. But why is there a run-up with the voltage of the battery itself - 12V? This is done in order to ensure the ability to charge a battery that has been discharged to a level where the value of this battery parameter was equal to 12V. If charging is characterized by the same parameter value, then powering the battery will become a difficult task.

Watch the video, the simplest device for charging a battery:

But there is a nuance here: a slight excess of the battery voltage level is not critical, while a significantly increased value of this parameter will have a very bad effect on the performance of the battery in the future. The operating principle that distinguishes any, even the simplest car battery charger, is to increase the resistance level, which will lead to a decrease in the charging current.

Accordingly, the higher the voltage value (tends to 12V), the lower the current. For normal operation of the battery, it is advisable to set a certain amount of charge current (about 10% of the capacity). In a hurry, it is tempting to change the value of this parameter to a higher value, however, this is fraught with negative consequences for the battery itself.

What is required to make a battery?

The main elements of a simple design: a diode and a heater. If you connect them correctly (in series) to the battery, you can achieve what you want - the battery will be charged in 10 hours. But for those who like to save electricity, this solution may not be suitable, because the consumption in this case will be about 10 kW. The operation of the resulting device is characterized by low efficiency.

Basic elements of a simple design

But to create a suitable modification, you will have to slightly modify individual elements, in particular, the transformer, the power of which should be at the level of 200-300 W. If you have old equipment, this part from a regular tube TV will do. To organize the ventilation system, a cooler will be useful; it is best if it comes from a computer.

When creating a simple charger for powering a battery with your own hands, the main elements are also a transistor and a resistor. To make the structure work, you will need a compact externally, but quite capacious metal case; a good option is a stabilizer box.

In theory, even a novice radio amateur who has not previously encountered complex circuits can assemble this kind of equipment.

Circuit diagram of a simple battery charger

The main difficulty lies in the need to modify the transformer. At this level of power, the windings are characterized by low voltage levels (6-7V), the current will be equal to 10A. Typically, a voltage of 12V or 24V is required, depending on the type of battery. To obtain such values ​​at the output of the device, it is necessary to provide a parallel connection of the windings.

Step by step assembly

A homemade charger for powering a car battery begins with preparing the core. Winding the wire onto the windings is done with maximum compaction; it is important that the turns fit tightly to each other and there are no gaps left. We must not forget about the insulation, which is installed at intervals of 100 turns. The wire cross-section of the primary winding is 0.5 mm, the secondary winding is from 1.5 to 3.0 mm. If we consider that at a frequency of 50 Hz, 4-5 turns can provide a voltage of 1V, respectively, to obtain 18V, about 90 turns are required.

Next, a diode of suitable power is selected to withstand the loads applied to it in the future. The best option is a car generator diode. To eliminate the risk of overheating, it is necessary to ensure effective air circulation inside the housing of such a device. If the box is not perforated, you should take care of this before starting assembly. The cooler must be connected to the charger output. Its main task is to cool the diode and winding of the transformer, which is taken into account when choosing an area for installation.

Watch the video for detailed manufacturing instructions:

The circuit of a simple charger for powering a car battery also contains a variable resistor. For normal charging operation, it is necessary to obtain a resistance of 150 Ohms and a power of 5 W. The KU202N resistor model meets these requirements more than others. You can choose a different option from this, but its parameters should be similar in value to those indicated. The resistor's job is to regulate the voltage at the device's output. The KT819 transistor model is also the best option from a number of analogues.

Efficiency assessment, cost

As you can see, if you need to assemble a homemade charger for a car battery, its circuit is more than simple to implement. The only difficulty is the arrangement of all the elements and their installation in the housing with subsequent connection. But such work can hardly be called labor-intensive, and the cost of all the parts used is extremely low.

Some of the parts, and perhaps all of them, will probably be found at home by a radio amateur, for example, a cooler from an old computer, a transformer from a tube TV, an old housing from a stabilizer. As for the degree of efficiency, such devices, assembled with your own hands, do not have very high efficiency, however, as a result, they still cope with their task.

Watch the video, useful expert advice:

Thus, large investments in creating a homemade charger are not required. On the contrary, all the elements cost extremely little, which makes this solution stand out compared to a device that can be purchased ready-made. The scheme discussed above is not highly efficient, but its main advantage is a charged car battery, albeit after 10 hours. You can improve this option or consider many others proposed for implementation.

Every owner of a used car is faced with the need to recharge the battery. In addition, batteries are often used as a backup (or main) source of electricity in a garage, barn, or country house without a centralized electricity supply.

To restore the battery charge, you can purchase a ready-made one; there is no shortage of options.

Used to charge car battery

However, many home craftsmen prefer to make their own. If you have a radio engineering background, you can calculate the circuit yourself. And for the majority of hobbyists who know how to hold a soldering iron in their hands, we offer a couple of simple designs.

First of all, let's decide which batteries you need to charge. As a rule, these are acid starter batteries used in cars.

Such a battery can be purchased inexpensively at a car store, or you can use an old one left over from replacing it in your car. a used one may not be able to work as a starter, but it’s easy to connect a lighting device (especially LED) or a radio in the country to it.

How to correctly calculate a homemade charger?

The first rule that needs to be learned is the value of the charge voltage.
Lead-acid batteries have an operating voltage of 12.5 volts. But to charge, you need to apply a voltage in the range of 13.9 - 14.4 volts. Accordingly, the charger must be made with exactly these output parameters.

The next quantity is power.
More precisely, the current strength at which there will be no voltage drop at the output terminals of the charger. If you do not plan to charge batteries with a capacity of more than 65 Ah, a stable current of 12 A is sufficient.

Important! This value must be provided by the output stage of the charger; the current at the 220 volt input will be several times less.

A low-power charger can also charge high-capacity batteries. It will just take much more time.

It would also be useful to have a function to automatically stop operation when the normal charge level is reached, to protect the device from reverse current (the battery is a powerful source of energy that can damage the output stage of an incorrectly designed charger), or at least control the output voltage, and better yet, the current.

If, in addition to the fuse, you install protection against polarity reversal and short circuit, great. However, any modification complicates the device and increases its cost.