MIC2287-34BML-TR

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Microchip Technology

IC LED DRVR RGLTR PWM 750MA 8MLF

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MIC2287-34BML-TR

Unknown

Microchip Technology

IC LED DRVR RGLTR PWM 750MA 8MLF

Deep-Dive with AI

DocumentsDatasheet

Specifications Pricing Series Description Documents

Technical Specifications

Parameters and characteristics for this part

Specification	MIC2287-34BML-TR

Applications	Camera Flash, Backlight
Current - Output / Channel	750 mA
Dimming	Analog, PWM
Frequency	1.2 MHz
Internal Switch(s)	True
Mounting Type	Surface Mount
Number of Outputs	1
Operating Temperature [Max]	125 ¯C
Operating Temperature [Min]	-40 °C
Package / Case	8-MLF®, 8-VFDFN Exposed Pad
Supplier Device Package	8-MLF® (2x2)
Topology	Step-Up (Boost)
Type	DC DC Regulator
Voltage - Output	34 V
Voltage - Supply (Max) [Max]	10 V
Voltage - Supply (Min) [Min]	2.5 V

MIC2287C Series

White LED Driver w/ 34V OVP

Part	Operating Temperature [Min]	Operating Temperature [Max]	Voltage - Output	Voltage - Supply (Min) [Min]	Frequency	Current - Output / Channel	Package / Case	Voltage - Supply (Max) [Max]	Topology	Mounting Type	Number of Outputs	Type	Supplier Device Package	Dimming	Applications	Operating Temperature [custom]
Microchip Technology MIC2287-15YML-TR	-40 °C	125 ¯C	15 VDC	2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	Analog PWM	Backlight Camera Flash
Microchip Technology MIC2287YD5-TR	-40 °C	125 ¯C		2.5 V	1.2 MHz	750 mA	SOT-23-5 Thin TSOT-23-5	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator		Analog PWM	Backlight Camera Flash
Microchip Technology MIC2287C-24BML-TR				2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	Analog PWM	Backlight	-40 °C 105 °C
Microchip Technology MIC2287-15BML-TR	-40 °C	125 ¯C	15 VDC	2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	Analog PWM	Backlight Camera Flash
Microchip Technology MIC2287CYD5				2.5 V	1.2 MHz	750 mA	SOT-23-5 Thin TSOT-23-5	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator		Analog PWM	Backlight	-40 °C 105 °C
Microchip Technology MIC2287-34YML	-40 °C	125 ¯C	34 V	2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	PWM	Backlight Camera Flash
Microchip Technology MIC2287CBD5				2.5 V	1.2 MHz	750 mA	SOT-23-5 Thin TSOT-23-5	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator		Analog PWM	Backlight	-40 °C 105 °C
Microchip Technology MIC2287-34YML-TR	-40 °C	125 ¯C	34 V	2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	Analog PWM	Backlight Camera Flash
Microchip Technology MIC2287-34BML-TR	-40 °C	125 ¯C	34 V	2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	Analog PWM	Backlight Camera Flash
Microchip Technology MIC2287-24YML-TR	-40 °C	125 ¯C	24 V	2.5 V	1.2 MHz	750 mA	8-MLF® 8-VFDFN Exposed Pad	10 V	Step-Up (Boost)	Surface Mount	1	DC DC Regulator	8-MLF® (2x2)	Analog PWM	Backlight Camera Flash

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

Distributor	Package	Quantity	$

Digikey	Tape & Reel (TR)	5000	$ 0.83
		10000	$ 0.79

Description

General part information

MIC2287C Series

The MIC2287C is a 1.2MHz pulse width modulated (PWM), boost-switching regulator that is optimized for constant-current, white LED driver applications. With a maximum output voltage of 34V and a switch current of over 500mA, the MIC2287C easily drives a string of up to eight white LEDs in series, ensuring uniform brightness and eliminating several ballast resistors.

The MIC2287C implements a constant frequency, 1.2MHz PWM control scheme. The high frequency PWM operation saves board space by reducing external component sizes. The added benefit of the constant frequency PWM scheme as opposed to variable frequency topologies is much lower noise and input ripple injected back to the battery source.

To optimize efficiency, the feedback voltage is set to only 95mV. This reduces the power dissipation in the current set resistor and allows the lowest total output voltage, hence minimal current draw from the battery.

Documents

Technical documentation and resources