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Output 300V 80A Lead-acid Battery Charger

Basic Info

Model No.: PZDK-29-220/80

Type: Lead-Acid Battery Charger

Charging Type: Electric Charger

Additional Info

Packaging: Wooden box or carton

Productivity: 50-200 units / month

Brand: Taihang Jiaxin

Transportation: Ocean,Land,Air

Place of Origin: China

Supply Ability: 50-200 units / month

Certificate: ISO9001.CE

HS Code: 8504401990101

Port: Tianjin-by Sea,Shanghai-by Sea,Zhengzhou-by Air

Product Description

Output 300V 80A Lead-acid Battery Charger

1. The Concept

The concept of Taihang Jiaxin constant potential current limiting battery charger is to provide maximum reliability and least maintenance required in the actual operation. In this aspect, components are sized to provide highest reliability. Charging of battery is automatic whereby the charging current depends on the state of charged up, the current is automatically reduced to nearly zero. Hence, the consumption of water from its electrolyte is minimal.

2.General Technical Specification

Input Voltage: Standard – AC 380V±10%, 3- phase

Frequency: 50 /60 Hz

Input Tolerance: Voltage ±10% Frequency 47 to 63 Hz

Standard Output Voltage: DC 0-300V

Standard Output Current: DC 0-80A

Ripple: less than 3%

Temperature Range: Nominal ambient temperature 0°C to 50°C

Power Factor: Approximately 0.7 lag at maximum output current

Instrument & Control:

Mains on/off input circuit breaker or switch

Boost/Float/Auto switch

Indicating LED

Voltmeter / Ammeter

Protection:

MCB or High-Speed fuse

- RC suppression for thyristor bridge

- Over voltage / Under voltage

-AC input surge suppressor

-Soft Start (Short circuit protection slow starts device)

-Total Current limit

-Control circuit & Voltmeter fuses

-Rectifier Protection fuses

2.1 Circuit Design Features

Due to the typical characteristic of battery, Taihang Jiaxin charger is designed to suit the battery needs. The charging current is controlled only when the battery is at discharged state and after-which the battery is left alone to draw its own current to compensate its self discharged during float charging. This charging method is known as constant potential current limiting or constant current constant voltage charging. The Taihang Jiaxin charger coupled with the battery provides the following features:

Float Charge

Lead Acid Battery – 2.25V per cell

This will enable the battery to recover its capacity quickly and reduce the water consumption. In this aspect, it will reduce the topping up frequency and storage of water.

Boost Charge

Lead Acid Battery – 2.30V per cell

3.Charger Operation

3.1 Description of Operation

3.1.1Rectifier Circuit

When the rectifier is connected to an appropriate AC voltage source, the voltage is connected to the input transformer. The current passes through an AC breaker. The transformer steps the voltage up or down, as required for the specific DC output voltage. The transformer also isolates the commercial AC line from the battery circuit. One of the secondary of the transformer is connected to the full wave bridge rectifier. Note that a RC surge suppressor is connected directly across the secondary. This provides protection for the bridge rectifiers against incoming AC line surges.

The bridge is the heart of the power circuit. This assembly is a standard full wave silicon bridge, which is therefore capable of being made conductive for any part of each cycle. This is accomplished by the application of pulse to the gate of the terminal of the SCR at the desired time. Before the pulse is applied, the SCR is open, and no current flows in the circuit. However, as soon as the SCR is fired, it operates as a standard silicon rectifier until the forward current is reduced to almost zero. Charger output control can therefore be accomplished by changing the point in time the SCR are fired.

The firing angle determines the output of the bridge. When α is large, the SCR conducts for only a short time, and the bridge output power is low. When α is small, the SCR conducts for nearly the complete cycle, and the bridge output power is high.

As load increases, the conduction angle will decrease until the SCR is at full conduction. When the full load rating of the charger is exceeded, the firing angle is increased to the partial Conduction State. The control module plug in card accomplishes control of the SCR firing.

Following the bridge is a snubber circuit, consisting of a resistor and capacitor. This acts to suppress DC line surges and thereby protect the bridge output. This acts to insure proper operation of the SCR and allows for full conduction when required.

3.1.2Control Unit

A plug-in printed circuit card is used for charger control. This solid state card which utilizes integrated circuits, provides the charger with voltage regulation and automatic current limiting by controlling the SCR conduction angle (α).The control circuit contains the following:

Resistor Voltage Sensing Network

A resistor divider network senses the battery voltage. The programmed resistor matches the card to the particular charger and the value of this resistor is selected according to the charger`s nominal output voltage.

The output of the voltage-sensing network is fed to an integrated circuit, which generates an error signal.

This error signal is used to vary the firing angle.

Current Regulation

The charger will change from voltage regulating to current regulating (current limiting) when the current regulator takes over control of the firing angle (α).

In the current regulator, a reference voltage is compared with the voltage across the ammeter shunt. When the voltage reaches a preset value, the current limit circuit assumes control.

Current limiting may be adjusted from 0 to 100% of the charger`s nominal output current.

Voltage Regulation

If the output voltage of the charge decreases, the voltage regulator will raise the output voltage. The voltage regulator and current regulator compare the voltage to a fixed reference.

AC Power

The printed circuit control module derives its power from a separate secondary transformer winding. This voltage is rectified by means of SCR, and provides the control circuit with DC power source.

Slow Start Circuit

When the charger is switch on with a completely discharge battery on the output, or short circuit, heavy current pulses can occur when the control circuit attempts to regulate the charger to full output. These current pulses can destroy the semiconductors in the bridge rectifier. To prevent this, the control circuit is equipped with a slow start circuit.

This device consists of a capacitor that is rapidly discharged when the AC supply main voltage drops to zero. When the AC voltage returns, the capacitor is charged relatively slowly. The voltage across the capacitor affects the firing angle (α), so that the charger`s output increases slowly during the first 1–2 seconds of operation.

Synchronizing Circuit

In order to deliver the firing pulses to the SCR at the appropriate time for each cycle, it is necessary to synchronize the phase shift modulator to the incoming AC line. The synchronizing circuit accomplishes this.


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DC Power Supply, Agv Battery Charger, Industrial Battery Charger, Battery Maintenance Equipment, Battery Management Systems, Custom Battery


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  • Output 300V 80A Lead-acid Battery Charger
  • Output 300V 80A Lead-acid Battery Charger
  • Output 300V 80A Lead-acid Battery Charger
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