APGRD004 Microchip Technology, APGRD004 Datasheet - Page 19
APGRD004
Manufacturer Part Number
APGRD004
Description
REF DESIGN MOD AUTO AMBNT LIGHT
Manufacturer
Microchip Technology
Specifications of APGRD004
Main Purpose
Lighting, RGB LED Controller
Embedded
Yes, MCU, 8-Bit
Utilized Ic / Part
MCP2021, PIC12F615
Primary Attributes
4 Tiny Boards, Each Have: RGB LED, LIN Transceiver, Voltage Regulator, MCU
Secondary Attributes
LIN Commands are Interpreted to Control 16,383 Colors and 1,023 Dimming Levels
Silicon Manufacturer
Microchip
Silicon Core Number
APGDT001
Kit Contents
4 Ambient Lighting Modules, Documentation
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
APGRD004
Manufacturer:
MICROCHIP
Quantity:
12 000
MCP9700/01 Voltage Output Temperature Sensors
www.microchip.com/lighting
Voltage Output Temperature Sensors
The most basic technique employed to protect the device
from damaging over-temperature conditions is to provide
a shutdown signal to the driver circuit when a pre-defined
threshold is reached. However, this behavior can be
unacceptable in applications where continuous lighting
is required for safety or regulatory conditions. A more
advanced approach can be obtained if a microcontroller is
used to manage the lighting application providing closed
loop control of the power supplied by the driver circuit.
As the temperature approaches the threshold the current
supplied can be reduced to limit the power output.
By using a Voltage Output Temperature Sensor such as
the MCP9700 and MCP9701, placed on the LED module
close to the emitting device, it is possible to provide a
linear voltage feedback signal to a PIC microcontroller. This
solution ensures that the light source can always operate at
a power level that remains within temperature limits. Almost
any kind of software algorithm can be implemented in the
microcontroller to respond to the temperature feedback,
allowing tremendous flexibility.
LED Lighting Solutions
Power LED Thermal Control Circuit Using MCP9700 and MCP1650
GND
V
NC
OUT
MCP9700/9700A
MCP9701/9701A
5-Pin SC-70
NC
V
DD
Vcc
Boost Converter
V
PIC10F220
1
DD
MCP1650
GP0
GND
S
MCP9700/9701
HDN
V
3-Pin TO-92
OUT
PWM
Power
Control
Only
AN1
GP3
GP2
GND
Bottom
1 2 3
Communication
View
User Interface
Power LED Thermal Control Circuit Using
MCP9700 and MCP1650
Alternatively a PIC microcontroller can perform a direct
PWM control (on/off) of the entire LED driving circuit at low
frequency (100-120 Hz). By limiting the average
on-time of the power LED, the total power output can be
limited. This technique has the advantage of stabilizing the
application temperature while maintaining the LED driving
current constant therefore limiting the LED color shift
produced by forward current changes. The diagram below
illustrates an example of a switching DC-DC converter design
based on the MCP1650 boost regulator controlled by a 6-pin
PIC10F220 microcontroller.
Learn More
The Intelligent Power Supply Design Center
(www.microchip.com/power) features temperature sensing
solutions, including application notes and product selection
charts.
Literature on the Web
■
V
OUT
Temperature
DG4 – Temperature Sensor Design Guide, DS21895
MCP9700
Sensing
GND
V
CC
High Power
LED Module
LED Lighting Solutions Design Guide
19
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