HV9912 Supertex, Inc., HV9912 Datasheet - Page 9

HV9912

Manufacturer Part Number

HV9912

Description

Switch-mode Led Driver Ic With High Current Accuracy And Hiccup Mode Protection

Manufacturer

Supertex, Inc.

Datasheet

1.HV9912.pdf (12 pages)

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FAULT Condition

In the case of a fault condition (either open circuit or short

circuit), the same sequence is repeated with the only differ-

ence being that the COMP pin voltage does not start from

zero, but rather from its steady-state condition.

Short Circuit Protection

When a short circuit condition is detected (output current be-

comes higher than twice the steady state current), the GATE

and FLT outputs are pulled low. As soon as the disconnect

FET is turned off, the output current goes to zero and the

short circuit condition disappears. At this time, the hiccup

timer is started (Fig. 3). Once the timing is complete, the

converter attempts to restart. If the fault condition still per-

sists, the converter shuts down and goes through the cycle

again. If the fault condition is cleared (due to a momentary

output short) the converter will start regulating the output

current normally. This allows the LED driver to recover from

accidental shorts without having to reset the IC.

The hiccup time will depend on the steady state voltage of

the COMP pin (V

4V. The hiccup time can be approximately computed as:

Over Voltage Protection

The HV9912 provides hysteretic over voltage protection

allowing the IC to recover in case the LED load is discon-

nected momentarily.

Output Current

COMP

FLT

Fig. 3 Short Circuit Protection

HICCUP

COMP

). This is typically in the range of 3V -

≈ (C

Hiccup Time

hiccup

+ C

Short Circuit

occurs

) x 9V - V

5µA

Normal Operation

Res umes

COMP

(Eqn. 9)

When the load is disconnected in a boost converter, the

output voltage rises as the output capacitor starts charging.

When the output voltage reaches the OVP rising threshold,

the HV9912 detects an over voltage condition and turns off

the converter. The converter is turned back on only when the

output voltage falls below the falling OVP threshold (which

is 10% lower than the rising threshold). This time is mostly

dictated by the R-C time constant of the output capacitor Co

and the resistor network used to sense over voltage (R

+ R

cycle keeps repeating maintaining the output voltage within

a 10% band.

In most designs, the lower threshold voltage of the over volt-

age protection when the converter will be turned on will be

more than the LED string voltage. Thus, when the LED load

is reconnected to the output of the converter, the voltage

differential between the actual output voltage and the LED

string voltage will cause a spike in the output current when

the FLT signal goes high. This causes a short circuit to be

detected and the HV9912 will go into short circuit protec-

tion. This behavior continues till the output voltage becomes

lower than the LED string voltage, at which point no fault

will be detected and normal operation of the circuit will com-

mence (Fig. 4).

The various delay times can be computed as follows:

Note that the number of hiccup cycles might be more than

two.

OVP2

). In case of a persistent open circuit condition, this

HICCUP1

≈ 0.1 x (R

HICCUP2-n

≈ (C

+ C

OVP1

) x 9V - V

+ R

+ C

OVP2

) x 9V

5µA

) x C

5µA

COMP

Preliminary

HV9912

(Eqn. 10)

(Eqn. 12)

(Eqn. 11)

OVP1

HV9912 Supertex, Inc., HV9912 Datasheet - Page 9

HV9912

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