LED driver 2 click carries the MCP1643 - LED constant current regulator, made by Microchip. It is a compact, high-efficiency, fixed frequency, synchronous step-up converter, optimized to drive one LED with the constant current. It can be powered by a two-cell alkaline/NiMH/NiCd battery (2.4V), or via the mikroBUS™ power supply pins. LED Driver 2 click also features 3W high power LED by QT-Brightek. This LED can be dimmed by applying the variable duty cycle PWM signal to the EN pin of the MCP1643 regulator, through the PWM pin of the mikroBUS™.
Thanks to its relatively high constant current driving capability and the overvoltage protection on the output, this integrated circuit is perfectly suited for high brightness/power LED applications: portable LED lighting products, LED Flashlight and Head Lamps, Rechargeable Flashlights, General LED constant current applications and so on.
LED driver 2 click carries the MCP1643 - LED constant current regulator, made by Microchip. It is a compact, high-efficiency, fixed frequency, synchronous step-up converter, optimized to drive one LED with the constant current. It can be powered by a two-cell alkaline/NiMH/NiCd battery (2.4V), or via the mikroBUS??? power supply pins. LED Driver 2 click also features 3W High brightness LED by QT-Brightek. This LED can be dimmed by applying the variable duty cycle PWM signal to the EN pin of the MCP1643 regulator, through the PWM pin of the mikroBUS???.
Thanks to its relatively high constant current driving capability and the overvoltage protection on the output, this integrated circuit is perfectly suited for high brightness/power LED applications: portable LED lighting products, LED Flashlight and Head Lamps, Rechargeable Flashlights, General LED constant current applications and so on.
How does it work?
MCP1643 is basically a boost regulator with a low voltage reference of 120mV (VFB). The main feature of the regulator is that it is optimized to keep the current running through the LED - constant, by regulating the voltage across the feedback resistor. The VFB pin is used to regulate the voltage across the feedback resistor to 120 mV, keeping the output LED current regulated. As feedback resistor (R2 on the provided schematic) is connected to the FB pin and its resistance is 0.4?, the maximum current through the LED can easily be calculated by using the following formula: ILED = VFB/R2 = 120mV/0.4? = 300mA.
The voltage drop on the feedback resistor has to be low, in order to avoid dissipation. In the case of MCP1643, this voltage is set to 120mV which ensures no dissipation issues at all.
The onboard VIN SEL SMD jumper offers the selection of the input voltage source: it can be set to use a two-cell NiMH battery connected to VIN terminal (2.4V), or the power supply pin from the mikroBUS???. The voltage from the mikroBUS??? can be set with the VCCIO SMD jumper to either 5V or 3.3V. Since the forward voltage on the high power LED is 3.2V, the click board comes equipped with the MCP1826, an LDO regulator by Microchip, which is used to drop the selected mikroBUS??? voltage down to around 2.4V so that the MPC1643 input voltage requirements are met.
High brightness 3W LED is already attached to the output of the MCP1643 and it comes soldered on the board, so the circuit is ready to be used right away.
The LED brightness can be regulated by applying a variable duty cycle PWM signal to the EN pin of the MCP1643 regulator (routed to PWM pin on the mikroBUS???). This results in changing the current running through the LED in a linear fashion, from 0 to the value set by the resistor, depending on the PWM cycle.
The device also features an output overvoltage protection that limits the output voltage to 5.0V typical, in case the LED fails or output load is disconnected. Also, the device features a thermal shutdown at +150??C with a hysteresis of +25??C and the overcurrent protection that prevents failures due to short circuits on the output.
Specifications
Type
Boost
On-board modules
Microchip???s MCP1643 ??? 1MHz low start-up voltage synchronous boost LED constant current regulator
Key Features
Overvoltage protection, true load disconnect, dimming control by variable duty cycle, overtemperature protection
Interface
PWM
Input Voltage
3.3V or 5V
Click board size
L (57.15 x 25.4 mm)
Pinout diagram
This table shows how the pinout on LED driver 2click corresponds to the pinout on the mikroBUS??? socket (the latter shown in the two middle columns).
Notes
Pin
Pin
Notes
NC
1
AN
PWM
16
PWM
PWM pin for dimming the LED
NC
2
RST
INT
15
NC
NC
3
CS
TX
14
NC
NC
4
SCK
RX
13
NC
NC
5
MISO
SCL
12
NC
NC
6
MOSI
SDA
11
NC
Power supply
3V3
7
3.3V
5V
10
5V
Power supply
Ground
GND
8
GND
GND
9
GND
Ground
LED driver 2 click electrical specifications
Description
Min
Typ
Max
Unit
Battery supply voltage
2.4
V
High Brightness LED current
0
300
mA
Onboard settings and indicators
Label
Name
Default
Description
JP1
VIN SEL
Left
Power supply voltage selection, left position VBAT, right position VCC
JP2
VCCIO SEL
Left
Power supply voltage selection, left position 3V3, right position 5V
TB1
Screw terminal
-
Screw terminal for connecting the battery
LD1
Power LED
-
Power LED is lit when the click board is powered through the mikroBUS???
LD2
High Brightness LED
-
High Brightness LED with regulated current
Software support
We provide a demo application for the LED driver 2 click on our LibStock page, developed using MikroElektronika compilers. The demo can run on all the main MikroElektronika development boards with minimal change to the code depending on the microcontroller used.
Examples Description
The application is composed of three sections :
System Initialization - Initializes GPIO and duty cycle variable used for calculation
Application Initialization - Initializes PWM module used for LED driver 2 click control
Application Task - (code snippet) Sequentially changes the duty cycle of the PWM module which leads to LED brightness raising from the minimum to the maximum. When maximum brightness is reached, the operation is repeated from the beginning.
