SP4501 Ver la hoja de datos (PDF) - Signal Processing Technologies
Número de pieza
componentes Descripción
Fabricante
SP4501 Datasheet PDF : 13 Pages
| |||
Electroluminescent Technology
An EL lamp consists of a thin layer of phospho-
rous material sandwiched between two strips of
plastic which emits light (flouresces) when a
high voltage AC signal is applied across it. It
behaves primarily as a capacitive load. Long
periods of DC voltage applied to the material
tend to reduce its lifetime. With these conditions
in mind, the ideal signal to drive an EL lamp is a
high voltage sine wave. Traditional approaches
to achieve this type of waveform include discrete
circuits incorporating a transformer, transistors
and several resistors and capacitors. This ap-
proach is large and bulky and cannot be imple-
mented in most handheld equipment. Sipex
offers low power single chip driver circuits spe-
cifically designed to drive small to medium sized
electroluminescent panels. Sipex EL drivers
provide a differential AC voltage without a DC
offset to maximize EL lamp lifetime. The only
additional components required for the EL driver
circuitry are an inductor, resistor and capacitor.
Electroluminescent backlighting is ideal when
used with LCD displays, keypads or other back-
lit readouts. EL lamps uniformly light an area
without creating any undesirable "hot spots" in
the display. Also, an EL lamp typically con-
sumes less power that LED's or incandescent
bulbs in similar lighting situations. These fea-
tures make EL ideal for attractive, battery pow-
ered products.
THEORY OF OPERATION
Coil Switch
The SP4501 has an inductor-based boost con-
verter to generate the high voltage used to drive
the EL lamp. Energy is stored in the inductor
according to the equation E = 1/2 (LI 2) where
L
pk
Ipk = (tON) (VBATT - VCEsat) /L. An internal oscilla-
tor controls the coil switch. During the time the
coil switch is on, the coil is connected between
VDD and the saturation voltage of the coil switch
and a magnetic field develops in the coil. When
the coil switch turns off, the switch opens, the
magnetic field collapses and the voltage across
the coil rises.
The internal diode forward biases when the coil
voltage rises above the H-Bridge voltage and the
energy enters the EL lamp. Each pulse increases
the voltage across the lamp in discrete steps.
As the voltage approaches its maximum, the
steps become smaller. (see figure 4).
The brightness of the EL lamp output is directly
related to energy recovery in the boost converter.
There are many variations among coils such as
magnetic core differences, winding differences
and parasitic capacitances. For suggested coil
suppliers refer to page 10.
Oscillator
The internal oscillator generates a high frequency
clock used by the boost converter and H-Bridge.
An external resistor from VDD to ROSC sets the
oscillator frequency. Typically a 500kΩ resistor
sets the frequency to 45.7kHz. The high fre-
quency clock directly controls the coil switch.
This high frequency clock is divided by 128 to
generate a low frequency clock which controls
the EL H-Bridge and sets the EL lamp fre-
quency. The high frequency clock is divided by
16 to create a medium frequency clock to drive
the piezo H-Bridge. The oscillator has low
sensitivity to temperature and supply voltage
variations, increasing the performance of the EL
driver over the operating parameters.
Dual H-Bridge
The H-Bridge consists of two SCR structures
and two NPN transistors that control how the
lamp is charged. Setting ELEN to HIGH acti-
vates the EL H-Bridge. The EL driver illumi-
nates the lamp by applying the high voltage
supply of the boost converter to the lamp termi-
nals through the H-Bridge and then switching
the terminal polarity between the high voltage
supply and ground at a constant frequency. This
applies an AC voltage to the lamp that is twice
the peak output voltage of the boost driver. An
AC voltage greater than the 40V across the
terminals of the lamp is necessary to adequately
illuminate the EL lamp. The piezo driver output
applies an AC voltage to the piezotransducer in
a similar manner. The piezo driver operates in
two modes.
11-14-00
SP4501 EL Plus Piezo Driver
3
© Copyright 2000 Sipex Corporation
Share Link: 