BD9285F ROHM [Rohm], BD9285F Datasheet - Page 9

BD9285F

Manufacturer Part Number

BD9285F

Description

Boost 1channel white LED driver For large LCDs

Manufacturer

ROHM [Rohm]

Datasheet

1.BD9285F.pdf (39 pages)

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●2.4 Pin function description

www.rohm.com

TSZ22111・15・001

BD9285F

○ ○ ○ ○ Pin1: OVP

○ ○ ○ ○ Pin2: UVLO

○ ○ ○ ○ Pin3: SS

○ ○ ○ ○ Pin4: RT

○ ○ ○ ○ Pin5, Pin6: PWM1, PWM2

Under voltage lock out pin for the input voltage of the power stage. More than 3.0V(typ.), IC starts the boost operation and

stops lower than 2.8V(typ.).

The setting examples is separately described in the section 3.4.5, ”external components selection, how to set UVLO”

Regarding of the logic of SS=L

DC/DC switching frequency setting pin. RT set the oscillation frequency inside IC.

The ON / OFF terminal of the LED driver. LED lights when both PWM signal are high (DIMOUT = H). The Duty signal of

this pin can control the PWM dimming.

The high / low level of PWM pins are following.

capacitance Css(0.001µF to 4.7µF). The switching duty of GATE output will be limited during 0V to 3.0V of the SS

voltage.

The pin which sets soft start interval of DC/DC converter. It performs the constant current charge of 3.0 µA to external

So the equality of the soft start interval can be expressed as following

Please refer to the time chart on soft start behavior in the section 3.7.4

The oscillation setting range from 50kHz to 800kHz.

The setting examples is separately described in the section 3.4.4, ”external components selection, how to set DCDC

oscillation frequency”

The OVP pin is high impedance, because the internal resistance to a certain bias is not connected.

The setting examples is separately described in the section 3.4.6, ”external components selection, how to set OVP, SCP”

The UVLO pin is high impedance, because the internal resistance to a certain bias is not connected.

○ ○ ○ ○ The relationship between the frequency and RT resistance value (ideal)

The OVP terminal is the input for over-voltage protection and short circuit protection of output voltage. As OVP is more

than 3.0V, the over-voltage protection (OVP) will work. On the other hand, OVP is lower than 0.2V, the short circuit

protection (SCP) will work. At the moment of these detections, the BD9285 stops the switching of the output GATE and

starts to count up the abnormal interval, but IC doesn't reach latch off state instantaneously until the detection continues

up to the number of counts of GATE terminals, which depend on the kind of abnormality. (Please refer to the time chart in

the section 3.5.7)

So, the bias by the external components is required, even if OVP function is not used, because the open connection of

this pin is not fixed the potential.

So, the bias by the external components is required, even if UVLO function is not used, because the open connection of

this pin is not fixed the potential.

Tss = 1.0*10

(SS=L) = (PWM1andPWM2 have not asserted H since ResetB=L->H) or (latch off state)

where ResetB = (STB=H) and (VCCUVLO=H) and (UVLO=H) and (TC54UVLO=H)

*Css

PWM1=H or PWM2=H

PWM1=L or PWM2=L

Css: the external capacitance of the SS pin.

State

15000

[

kHz

9/36

]

[

PWM=‐0.3V to 0.8V

PWM input voltage

PWM=2.0V to 5.0V

]

TSZ02201-0F1F0C100030-1-2

11.Jul.2012 Rev.001

Datasheet

BD9285F ROHM [Rohm], BD9285F Datasheet - Page 9

BD9285F

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