CN202204890U - Novel charger aging system - Google Patents

Abstract

The utility model discloses a novel charger aging system, which is characterized in that: the input end of the charger is connected to a power supply, the direct current output end of the charger is connected to the input end of a DC/DC converter, and the DC/DC conversion The output terminal of the converter is connected with a storage battery, and the storage battery is connected with the input terminal of the DC/AC converter at the same time, and the output terminal of the DC/AC converter is connected with the electrical equipment. The new charger aging system of the utility model converts the DC output of the charger into AC voltage through the DC/AC converter, and supplies it to electrical equipment such as chargers or work area lighting, replacing the load used in the traditional aging process, avoiding Reduce the waste of energy, environmental protection and conservation.

Description

New Charger Aging System

technical field

The utility model belongs to the field of electronic equipment production, in particular to a novel aging equipment for electronic products.

Background technique

Aging of electronic products to effectively improve the stability and reliability of products is a necessary production process in the production of enterprises. Aging equipment is widely used in the production and manufacturing of electronics, communications and other products. For example, for the aging of the charger, the traditional aging method is to provide a load for the charger, and all the output power of the charger is consumed by the load in the form of heat. The greater the power of the charger, the greater the energy consumed by the provided load. Such a huge amount of energy is consumed by heat, which is a serious waste of energy.

Contents of the invention

The technical purpose of the utility model is to solve the problems existing in the prior art and provide an environment-friendly and energy-saving charger aging system. the

The technical scheme of the utility model is:

A novel charger aging system is characterized in that: the input end of its charger is connected to a power supply, the direct current output end of the charger is connected to the input end of a DC/DC converter, and the output end of the DC/DC converter is connected to the A storage battery is connected, and the storage battery is connected to the input terminal of the DC/AC converter at the same time, and the output terminal of the DC/AC converter is connected to the electrical equipment. the

Further technical solutions include:

The output terminal of the DC/AC converter is connected to the AC input terminal of another charger aging circuit.

The charger is connected with an automatic loading control module for adjusting and controlling the output voltage value of the charger.

The electrical equipment also includes lighting equipment and the like.

The design of the utility model changes the traditional aging system device, and supplies the output current of the charger to the electrical equipment through the DC converter and the AC converter, replacing the heating load used in the aging charger of the traditional technology. The DC output of the charger converts the output voltage of the charger into the target voltage through the DC/DC converter to charge the battery, and the energy stored in the battery can be used in many ways, such as through DC/AC (direct current/alternating current) conversion The inverter converts the DC power of the battery into an AC voltage output, which can be used for lighting in the work area or other production equipment, or as a charger power supply for another aging system, so that the electric energy can be recycled to save energy loss, clean and environmentally friendly, and greatly reduce production cost.

At the same time, in order to make the aging system of the present utility model applicable to various types of charger aging, an automatic loading control module is added to the system to control and adjust the output voltage of the charger so that the input voltage of the DC converter is kept at a certain level. Within the range, there is no need to change the model of the converter.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Detailed ways

In order to clarify the technical scheme and technical purpose of the utility model, the utility model will be further introduced below in conjunction with the accompanying drawings and specific implementation methods.

As shown in Figure 1, a new charger aging system is used for aging of several chargers with the same specifications and models. The input terminal of the charger is connected to the mains power supply, the DC output terminal of the charger is connected to the input terminal of the DC/DC converter, the output terminal of the DC/DC converter is connected to a storage battery, and the storage battery is simultaneously connected to the The input end of the DC/AC converter is connected, and the output end of the DC/AC converter is connected with the lighting circuit or other electrical equipment in the work area, and at the same time connected with another aging system, which is used as an aging power supply for another group of chargers. ``

The aging system of the present utility model is also provided with an automatic loading control module connected with a charger, and the automatic loading control module utilizes a fixed resistance to add a MOSFET (metal oxide half-field-effect transistor), and the MOSFET and PWM (pulse width modulation ) device connection, adjust the circuit load through PWM pulse width modulation, so as to control the output voltage of the charger within the input voltage range of the DC/DC converter, and use a converter to age a variety of chargers with different specifications, and adjust The load ages the charger operating at full load. The automatic loading control module can adjust the circuit load in various ways to achieve the function of controlling the output voltage of the charger. The utility model is preferably the above solution, but not limited to the above solution.

The utility model has been disclosed above with preferred embodiments, but it is not intended to limit the utility model, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation methods fall within the protection scope of the utility model.

Claims (4)

1. New-type charge device ageing system; It is characterized in that: the input end of its charger is connected with power supply; The DC output end of charger is connected with the input end of DC/DC converter; The output terminal of said DC/DC converter is connected with an accumulator, and said accumulator is connected with DC/AC converter input end simultaneously, and said DC/AC converter output end is connected with electric equipment.

2. a kind of New-type charge device ageing system according to claim 1 is characterized in that: said DC/AC converter output end is connected with the charger alternating current input end of another charger aging circuit.

3. a kind of New-type charge device ageing system according to claim 2 is characterized in that: also comprise the automatic Loading Control module of the said charger output voltage of a control adjustment, said automatic Loading Control module is connected with charger.

4. according to claim 1,2 or 3 described a kind of New-type charge device ageing systems, it is characterized in that: said electric equipment also comprises light fixture.

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