HV9801A Ver la hoja de datos (PDF) - Supertex Inc
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HV9801A Datasheet PDF : 9 Pages
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HV9801A
Without the extended off-time the inductor current increases
with every switching cycle, thereby causing over-current
damage to the converter.
The extension of the off-time can be observed in Fig.2:
440mV/RCS
S
~750µs
illustration below. The sequence starts at 100% and adjusts
to a lower level with the following step. Upon reaching the
highest or lowest level the direction of the sequence revers-
es. When power is removed for more than one second, the
dimming sequence is terminated and brightness is reset to
100% upon turn-on of the light switch.
VDD Capacitor
The VDD voltage should be maintained for at least one sec-
ond and above the 3.5V level after loss of VIN power to allow
certain timing circuits to function.
Fig.2. Short-circuit inductor current.
The minimum required capacitance can be calculated from:
Leading Edge Blanking
The MOSFET drain current, and thereby the current sense
signal, exhibits a spike at the start of a switching cycle which
arises from the MOSFET gate charging current and the
current required for discharge of the MOSFET drain node.
These two currents typically exceed the inductor by quite a
margin.
The current sense signal is blanked at the start of the switch-
ing cycle in order to avoid a premature trigger of the current
sense and the short circuit protection comparators.
(C) • (ΔV) = (I) • (ΔT)
(CCDD) • (7.5 - 3.5V) = (IVDDX) • (1s)
With 700µA of IVDDX the bypass capacitance should be
175µF.
Detection of Power Cycling
The presence of AC line power is detected at the VIN pin. To
this end, loss of AC power should result in a rapidly falling
voltage at the output of the bridge rectifier.
VDD Regulator
The VDD regulator generates a source of regulated voltage
for operation of internal and external circuits from the power
applied at the VIN pin. Alternatively, the VDD voltage can be
supplied from a source directly connected to the VDD pin.
The VDD regulator will turn off.
The VVIN voltage drops due to the current draw from the VDD
regulator. In order to facilitate a quick fall of the voltage, a
diode should be added to isolate the bus capacitor from the
VIN pin as shown in the Typical Application Circuit.
AC Line Power
ON/OFF cycle time 1second (max.)
Switch Dimming
General
Lamp brightness can be adjusted to one of four discrete lev-
els by rapidly cycling power with the light switch. The bright-
ness levels are traversed in an up and down manner, the
levels being 100%, 50%, 25% and 12.5%. Brightness re-
sumes at the highest level when power is removed for more
than a second.
Reduction of LED current is accomplished through PWM
dimming with a PWM dimming frequency of about 1kHz. The
PWM frequency is generated by an internal oscillator and
the duty cycle by means of digital logic.
ON
Brightness
100%
50%
25% 12.5% 25%
100%
Fig.3. LED brightness and AC line power.
Turning the light switch off and on within one second ad-
justs LED current to the next higher or lower level, see the
Doc.# DSFP-HV9801A
B051412
6
Supertex inc.
www.supertex.com
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