MXHV9910BTR Clare, MXHV9910BTR Datasheet - Page 7

MXHV9910BTR

Manufacturer Part Number

MXHV9910BTR

Description

IC LED DRIVER HIGH BRIGHT 8-SOIC

Manufacturer

Clare

Type

HBLED Driverr

Datasheet

1.MXHV9910BTR.pdf (11 pages)

Specifications of MXHV9910BTR

Topology

AC DC Offline Switcher, PWM, Step-Down (Buck)

Number Of Outputs

Internal Driver

Type - Primary

Backlight

Type - Secondary

High Brightness LED (HBLED), RGB

Frequency

51kHz ~ 77kHz

Voltage - Supply

8 V ~ 450 V

Voltage - Output

7.8V

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Operating Temperature

-40°C ~ 85°C

Internal Switch(s)

Efficiency

90%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output / Channel

Other names

CLA320TR

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It is a good practice to select a power rating that is at

least twice the calculated value. This will give proper

margins, and make the design more reliable.

The MXHV9910 has an internal current-sense

blanking circuit. When the power MOSFET is turned

on, the external inductor can cause an undesired

spike at the current sense pin, CS, initiating a

premature termination of the gate pulse. To avoid this

condition, a typical 400ns internal leading edge

blanking time is implemented. This internal feature

eliminates the need for external RC filtering, thus

simplifying the design. During the current sense

blanking time, the current limit comparator is disabled,

preventing the gate-drive circuit from terminating the

gate-drive signal.

Connecting the PWMD pin to V

driver. Connecting PWMD to GND disables the gate

driver and sets the device into the shut-down mode. In

the shut-down mode, the gate output drive is disabled

while all other functions remain active. The maximum

quiescent current in the shut-down mode is 0.6mA.

The MXHV9910 operates in a constant frequency

mode. Setting the oscillator frequency is achieved by

connecting an external resistor between R

In general, switching frequency selection is based on

the inductor size, controller power dissipation, and the

input filter capacitor.

The typical off-line LED driver switching frequency, f

is between 30kHz and 120kHz. This operating range

gives designers a reasonable compromise between

switching losses and inductor size. The internal RC

oscillator has a frequency accuracy of ±20%.

shows the R

R01

2.2.3 Current Sense Blanking

2.2.4 Enable/Disable

2.2.5 Oscillator

resistor selection for the desired f

enables the gate

and GND.

Figure 4

www.clare.com

Figure 4 Resistor Selection

The inductor value is determined based on LED ripple

current, maximum on-time, the forward voltage drop of

all LEDs in a string at the desired current, and the

minimum input voltage, which is based on design

requirements. The maximum on-time is determined by

the duty cycle and switching frequency. The maximum

duty cycle is given by:

Where:

•

The maximum duty cycle must be restricted to less

than 50% in order to prevent sub-harmonic oscillations

and open loop instability.

The converter maximum ON-time is given by:

Where f

oscillator.

The inductor value for the given ripple is:

average LED current.

250

200

150

100

LEDstring

2.2.6 Inductor Design

is the minimum input voltage to V

is the switching frequency of the internal

is the LED string voltage at desired

200

min

Oscillator Frequency, f

(

-------------------------------------------------------------------- -

max

400

ONmax

–

LEDstring

------------------------- -

iout

=27ºC)

LEDstring

(kΩ)

600

------------ -

max

LED

) t

, vs. R

800

ONmax

MXHV9910

1000

1200

MXHV9910BTR Clare, MXHV9910BTR Datasheet - Page 7

MXHV9910BTR

Specifications of MXHV9910BTR

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