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MAX14514 Datasheet, PDF (10/14 Pages) Maxim Integrated Products – Dual Electroluminescent Lamp Driver
Dual Electroluminescent Lamp Driver
Detailed Description
The MAX14514 high-voltage DC-AC converter is
designed to drive two EL lamps. The MAX14514 fea-
tures a +2.7V to 5.5V input range that allows the device
to accept a wide variety of voltage sources, including
single-cell Li+ batteries. The lamp outputs of the device
generate up to 300VP-P for maximum lamp brightness.
The slew rate, frequency, and peak-to-peak voltage of
the MAX14514 EL lamp outputs are programmed
through a combination of external components and/or
logic inputs.
Output Slew Rate
The MAX14514 uses the resistor RSLEW to set a refer-
ence current for the internal circuitry. The reference
current directly affects the slew rate of the EL lamp out-
put. Increasing the value of RSLEW decreases the slew
rate, and decreasing the value of RSLEW increases the
slew rate. (See the RSLEW Resistor Selection section on
how to select RSLEW.)
Output Frequency
The MAX14514 uses an internal oscillator to set the
desired output frequency. The output frequency is
adjusted by either 1) the combination of a resistor from
SLEW to GND and an external capacitor from the EL
input to GND, or 2) by driving a clock signal directly
into the EL input. (See the CEL Capacitor Selection sec-
tion for choosing the CEL capacitor value.)
Dimming Control
The MAX14514 features dimming control inputs, DIM1
and DIM2, to control the peak-to-peak voltages on lamp
outputs V1, V2, and COM. DIM_ is controlled by either a
DC voltage, a PWM signal, or a resistor from DIM_ to
GND. (See the RDIM Resistor Selection section.)
Applying a DC voltage to DIM_ ranging from VLPD to
VIH_DIM_ linearly varies the corresponding output volt-
age from 130V to 300V. Increasing the voltage on DIM_
increases the peak-to-peak output, and decreasing the
voltage on DIM_ decreases the peak-to-peak output
voltage. Note that when VDIM_ goes below VIL_DIM_, the
corresponding output turns off.
DIM_ features an internal lowpass filter to allow a PWM
signal to control the output voltage. Voltages on DIM_
are internally level translated down to VIH_DIM_, so that
the equivalent voltage on DIM_ is (%duty cycle) x
VIH_DIM_. The DIM_ inputs accept the 200kHz to 1MHz
frequency range. Note that for PWM signals, the logic
voltage applied to DIM__ must be greater than or equal
to VIH_DIM_.
The peak-to-peak EL lamp output voltage is related to
VDIM_ (for VDIM_ > VIL_DIM_) or PWM duty cycle by the
following equation:
V_ - VCOM = 260 x (VDIM_) = 260 x (%duty cycle) x
(VIH_DIM_)
Slow Turn-On, Slow Turn-Off
The MAX14514 provides a slow turn-on and slow turn-
off time feature that is enabled by connecting a capaci-
tor from CAP to GND (see the Typical Application
Circuit and the CCAP Capacitor Selection section). This
slow turn-on/-off feature causes the peak-to-peak volt-
age of the EL outputs to slowly rise or fall any time the
outputs are enabled or disabled, either through EN or
DIM_ (see Table 1). The slow rise and fall of the peak-
to-peak EL output voltage creates a soft fade-on and
fade-off of the EL lamp, rather than an abrupt change in
brightness. To disable the slow turn-on/turn-off feature,
connect CAP to VDD.
Table 1. Slow Turn-On, Slow Turn-Off
LOGIC INPUT
EL OUTPUTS*
EN
1≥0
DIM1 DIM2
1
1
V1
Slow Turn-Off
V2
Slow Turn-Off
0≥1
1
1
Slow Turn-On Slow Turn-On
1
1≥0
X
Slow Turn-Off
X
1
0≥1
X
Slow Turn-On
X
1
X
1≥0
X
Slow Turn-Off
1
X
0≥1
X
Slow Turn-On
*With capacitor from CAP to GND (CAP is not connected to VDD).
X = Don’t Care.
Boost Converter
The MAX14514 boost converter consists of an external
inductor from VDD to the LX input, an internal DMOS
switch, an external diode from LX to the CS output, an
external capacitor from the CS output to GND, and the
EL lamps, CLAMP1 and CLAMP2, connected to the EL
lamp outputs. When the DMOS switch is turned on, LX
is connected to GND, and the inductor is charged.
When the DMOS switch is turned off, the energy stored
in the inductor is transferred to the capacitor CCS and
the EL lamps.
Note: Keeping SW high shorts LX to GND and causes
the internal die temperature to increase. The MAX14514
is protected by entering a thermal-shutdown state (see
the Thermal Short-Circuit Protection section).
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