Pololu boost - adjustable 4-25V 2A inverter - Pololu 799

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Pololu boost - adjustable 4-25V 2A inverter - Pololu 799

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Фото #7 товара Pololu boost - adjustable 4-25V 2A inverter - Pololu 799

Фото #8 товара Pololu boost - adjustable 4-25V 2A inverter - Pololu 799

12 404 AMD

Бренд Pololu
Доставка из Польши
Курьер DHL 10 июня
Стоимость доставки заказа в Армению от 84 501 AMD

Сроки доставки указаны ориентировочно и зависят от региона доставки. Подробнее на этой странице

Характеристики

Напряжение от: 16.0 V
Стабилизатор - Тип: step-up
Стабилизатор - Тип 2: switching

Вес и размеры

Длина: 22 mm
Высота: 6 mm
Ширина: 11 mm

Общие характеристики

Напряжение до: 1.5 V
Выходное напряжение от: 4.0 V
Выходное напряжение до: 25 V

Прочие свойства

Бренд: Pololu

Энергопитание

Сила тока: 2 A

Описание

Product description: Polol booster - adjustable 4-25V 2A inverter

Dimensions: 23 x 17 x 5 mm
Cable length:
Cables to the motor: 55 mm
Cables to the package: 75 mm
Cable to the receiver: 95 mm
Weight (with wires): 8 g
Operating current: continuous 10A / 10 min
Max. operating current (peak): 15A
Plug in the receiver: type JR
Number of cells: 2 - 3 LiPo
Operating voltage: 7,4 - 11,1V
Built-in functions: brake programming, timing

Specification

Input voltage: 1.5 V to 16 V
Output voltage adjustable: 4 V to 25 V
Operating frequency 750 kHz
Maximum current: 2 A
Efficiency of 80 - 90 %
Small sizes: 10.7 x 22.4 x 5.8 mm
Weight (without connectors): 1.6 g

Exits

The module has three outputs:

VIN- input voltage
GND- mass potential
VOUT -output voltage

The connectors are properly signed on the board. 2.54 mm leadout Raster - popular connectorsgoldpin, allow the module to be mounted incontact plateorconnectionby means ofcables.

Output voltage selection

The voltage is set using a potentiometer. Turning clockwise increases the voltage.

System efficiencyFig. 1: Selection of output voltage.

The efficiency of the inverter depends on the input voltage and the selected output voltage. On average, it ranges from 80% to 90%. The maximum current that the system can supply is 2 A.

Figure 2: System efficiency at 5V output voltage.

Fig. 3: Efficiency of the system at the output voltage of 12V.

Voltage jumps (pins)

In electronic circuits the starting current may cause the occurrence of so-called pins, i.e. sudden voltage surges to a value above a set level. If the amplitude of the pins exceeds the permissible value of the regulator, it can be destroyed. Therefore, if the system is supplied with voltage above 10V or the load is high inductance, we recommend to solder a capacitor of 33uF/25V or higher as close to the circuit as possible between VIN and GND.

Fig. 4: Efficiency of the system at the output voltage of 24V.

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