Microchip HV9910B Manual

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Supertex inc.

www.supertex.com

Doc.# DSDB-HV9910BDB3

A032813

HV9910BDB3

General Description

The HV9910BDB3 demoboard is a high current LED driver

designed to drive one LED or two LEDs in series at currents

up to 1.0A from a 10 – 30VDC input. The demoboard uses

Supertex’s HV9910B Universal LED driver IC to drive a

buck converter.

The HV9910BDB3 can be congured to operate in either a

constant frequency mode (for driving a single LED) or in a

constant o-time mode (for driving two LEDs).

The output current can be adjusted in two ways – either

with linear dimming using the onboard potentiometer or

with PWM dimming by applying a TTL – compatible square

wave signal at the PWMD terminal. Using linear dimming,

the output current of the HV9910DB1 can be lowered to

about 0.01A (note: zero output current can be obtained

only by PWM dimming).

Connection Diagram

Low Voltage, High Current,

LED Driver Demoboard

Specications

Parameter Value

Input voltage 10 - 30VDC

Output voltage -

constant frequency mode 2.0 - 4.5V

Output voltage -

constant o-time mode 4.0 - 8.0V

Maximum output current 1.0A ± 10%

Output current ripple (typ) 20% (peak-peak)

Efciency (@ 12V input) 86% (for one LED)

93% (for two LEDs)

Open LED protection yes

Output short circuit protection no

Dimensions 48.2mm X 29.0mm

Connections

1. Input Connection - Connect the input DC voltage

between VIN and GND terminals of connector J1 as shown

in the connection diagram.

2. Output Connection - Connect the LEDs between

LED+ (anode of LED string) and LED- (cathode of LED

string) of connector J2.

a. If the load is one LED, short the RT and FREQ

terminals of connector J4 using a jumper.

b. If the load is two LEDs, short the RT and OFFT

terminals of connector J4 using a jumper.

3. PWM Dimming Connection

a. If no PWM dimming is required, short PWMD and

VDD terminals of connector J3.

b. If PWM dimming is required, connect the TTL-

compatible PWM sourc between PWMD and GND

terminals of connector J3. The recommended PWM

dimming frequency is ≤ 1.0kHz.

Short for constant

frequency mode

Short for

constant o-time mode

Supertex inc.

www.supertex.com

Doc.# DSDB-HV9910BDB3

A032813

HV9910BDB3

Frequently Asked Questions

1. Why does the demoboard have two operating

modes?

Constant frequency mode limits the maximum output

voltage to less then 50% of the minimum input voltage.

So, in this case, if we use only the constant frequency

mode, the maximum output voltage will have to be less

than 5V. Constant o-time mode removes this limita-

tion and allows the output voltage become higher. How-

ever, in order to achieve reasonable noise immunity and

to limit the switching frequency variation over the input

voltage range, it is not recommended to operate the

HV9910DB3 with the output voltage exceeding 80% of

the input voltage, even in the constant o-time mode.

Please refer to application note AN-H50 on the Supertex

website for more details.

2. If the minimum input voltage in my application is high-

er (say 20V), does that mean I can drive a 9V LED string

in the constant frequency mode or an 16V LED string in

the constant o-time mode using the demoboard?

Although a larger LED string can be driven using the

demoboard in these conditions, the demoboard will not

be able to drive the LED at 1A.

The HV9910B is a constant peak current controller. The

average LED current is equal to the peak current set

(using the sense resistor) minus one-half of the ripple

current in the inductor.

Higher output voltages lead to larger ripple current val-

ues, which will reduce the maximum LED current the

board can deliver.

3. How can I compute the maximum LED current the

demoboard can deliver if I use a higher input voltage

and a higher LED string voltage?

See table below:

Parameters Minimum input voltage

Maximum LED string voltage

Switching frequency (constant frequency mode)

O-Time (constant off-time mode)

HV9910B CS threshold voltage

Sense Resistor

Inductor

= VIN,MIN

= VO,MAX

= fS

= TOFF

= VCS

= RCS

= L

(100kHz)

(5.1μs)

(0.25V)

(0.22Ω)

(220μH)

Constant O-Time Mode Constant Frequency Mode

O,MAX

• T

OFF

Δl =

ILED = –

VCS

Δl

VO, MAX

VIN,MIN

1 –

Maximum Switching Frequency =

{

TOFF

VO, MAX

VIN,MIN

1 –

{

L • fS

VO,MAX •

LED = –

VCS

RCS

Δl

Δl =

Produkt Specifikationer

Mærke:	Microchip
Kategori:	Ikke kategoriseret
Model:	HV9910B

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