PREMA Semiconductor GmbH LED Driver PR4403

Description
LED solar lamps operate with automatic LED control depending on the ambient light level. The battery is charged by solar cells. Normally this requires several components like Schottky diodes, capacitors, resistors, two or three rechargeable battery cells and a photo resistor. In contrast to this standard solution the PR4403 saves several components, as it is able to drive the current for the white LED out of a single rechargeable battery cell. Also the expensive photo resistor is no longer needed. A supply voltage of down to 0.9V is sufficient for the IC to drive a current of up to 40mA independent of the input voltage. The value of the external inductor defines the LED current. Instead of the photo resistor, the solar cell is directly connected to the IC for daylight level detection, and an optional resistor sets the light threshold. Depending on the voltage at this connection, the integrated step-up converter is switched on or off. During daytime the driver is shut-down and the solar cell charges the battery via the external Schottky diode. With decreasing ambient light the voltage at the solar cell drops, the IC is activated and drives the LED current out of the battery cell. Deep discharge of the battery cell is prevented as the PR4403 shuts off the driver when the supply voltage drops to less than 850mV. Therefore PREMA's PR4403 saves cost for LED solar lamps as it reduces the number of components. Applications for the PR4403 are solar garden lamps as well as house number lights, decoration lights and road markers powered by solar cells.
Datasheet
Description
LED solar lamps operate with automatic LED control depending on the ambient light level. The battery is charged by solar cells. Normally this requires several components like Schottky diodes, capacitors, resistors, two or three rechargeable battery cells and a photo resistor. In contrast to this standard solution the PR4403 saves several components, as it is able to drive the current for the white LED out of a single rechargeable battery cell. Also the expensive photo resistor is no longer needed. A supply voltage of down to 0.9V is sufficient for the IC to drive a current of up to 40mA independent of the input voltage. The value of the external inductor defines the LED current. Instead of the photo resistor, the solar cell is directly connected to the IC for daylight level detection, and an optional resistor sets the light threshold. Depending on the voltage at this connection, the integrated step-up converter is switched on or off. During daytime the driver is shut-down and the solar cell charges the battery via the external Schottky diode. With decreasing ambient light the voltage at the solar cell drops, the IC is activated and drives the LED current out of the battery cell. Deep discharge of the battery cell is prevented as the PR4403 shuts off the driver when the supply voltage drops to less than 850mV. Therefore PREMA's PR4403 saves cost for LED solar lamps as it reduces the number of components. Applications for the PR4403 are solar garden lamps as well as house number lights, decoration lights and road markers powered by solar cells.
Datasheet

Suppliers

Company
Product
Description
Supplier Links
LED Driver - PR4403 - PREMA Semiconductor GmbH
Mainz, Germany
LED Driver
PR4403
LED Driver PR4403
LED solar lamps operate with automatic LED control depending on the ambient light level. The battery is charged by solar cells. Normally this requires several components like Schottky diodes, capacitors, resistors, two or three rechargeable battery cells and a photo resistor. In contrast to this standard solution the PR4403 saves several components, as it is able to drive the current for the white LED out of a single rechargeable battery cell. Also the expensive photo resistor is no longer needed. A supply voltage of down to 0.9V is sufficient for the IC to drive a current of up to 40mA independent of the input voltage. The value of the external inductor defines the LED current. Instead of the photo resistor, the solar cell is directly connected to the IC for daylight level detection, and an optional resistor sets the light threshold. Depending on the voltage at this connection, the integrated step-up converter is switched on or off. During daytime the driver is shut-down and the solar cell charges the battery via the external Schottky diode. With decreasing ambient light the voltage at the solar cell drops, the IC is activated and drives the LED current out of the battery cell. Deep discharge of the battery cell is prevented as the PR4403 shuts off the driver when the supply voltage drops to less than 850mV. Therefore PREMA's PR4403 saves cost for LED solar lamps as it reduces the number of components. Applications for the PR4403 are solar garden lamps as well as house number lights, decoration lights and road markers powered by solar cells.

LED solar lamps operate with automatic LED control depending on the ambient light level. The battery is charged by solar cells. Normally this requires several components like Schottky diodes, capacitors, resistors, two or three rechargeable battery cells and a photo resistor. In contrast to this standard solution the PR4403 saves several components, as it is able to drive the current for the white LED out of a single rechargeable battery cell. Also the expensive photo resistor is no longer needed.

A supply voltage of down to 0.9V is sufficient for the IC to drive a current of up to 40mA independent of the input voltage. The value of the external inductor defines the LED current. Instead of the photo resistor, the solar cell is directly connected to the IC for daylight level detection, and an optional resistor sets the light threshold. Depending on the voltage at this connection, the integrated step-up converter is switched on or off. During daytime the driver is shut-down and the solar cell charges the battery via the external Schottky diode. With decreasing ambient light the voltage at the solar cell drops, the IC is activated and drives the LED current out of the battery cell.
Deep discharge of the battery cell is prevented as the PR4403 shuts off the driver when the supply voltage drops to less than 850mV. Therefore PREMA's PR4403 saves cost for LED solar lamps as it reduces the number of components.
Applications for the PR4403 are solar garden lamps as well as house number lights, decoration lights and road markers powered by solar cells.

Supplier's Site Datasheet

Technical Specifications

  PREMA Semiconductor GmbH
Product Category LED Drivers
Product Number PR4403
Product Name LED Driver
Form Factor Intgrated Circuit (IC)
Unlock Full Specs
to access all available technical data

Similar Products