EUA6011A
Operation
FADEOperation
HP/LINE
The
input controls the internal input
HP/LINE
For design flexibility, a fade mode is provided to slowly
ramp up the amplifier gain when coming out of shutdown
mode and conversely ramp the gain down when going into
shutdown. This mode provides a smooth transition
between the active and shutdown states and virtually
eliminates any pops or clicks on the outputs.
multiplexer (MUX).Refer to the block diagram in Figure
30.This allows the device to switch between two separate
stereo inputs to the amplifier. For design flexibility, the
control is independent of the output mode, SE
HP/LINE
or BTL, which is controlled by the aforementioned
pin. To allow the amplifier to switch from the
SE/BTL
FADE
When the
input is a logic low, the device is placed
LINE inputs to the HP inputs when the output switches
from BTL mode to SE mode, simply connect the
into fade-on mode. A logic high on this pin places the
amplifier in the fade-off mode. The voltage trip levels for
a logic low (VIL) or logic high (VIH) can be found in the
recommended operating conditions table.
control input to the
input.
HP/LINE
SE/BTL
When this input is logic high, the RHPIN and LHPIN
inputs are selected .when this terminal is logic low, the
RLINEIN and LLINEIN inputs are selected. This operation
is also detailed in Table 4 and the trip levels for a logic low
(VIL) or logic high (VIH) can be found in the recommended
operation conditions table.
FADE
When a logic low is applied to the
pin and a logic
SHUTDOWN
low is then applied on the
pin, the channel
gain steps down from gain step to gain step at a rate of
two clock cycles per step. With a nominal internal clock
frequency of 58HZ,this equates to 34 ms (1/24 Hz) per
step. The gain steps down until the lowest gain step is
reached .The time it takes to reach this step depends on the
gain setting prior to placing the device in shutdown. For
example, if the amplifier is in the highest gain mode of
20dB, the time it takes to ramp down the channel gain is
1.05 seconds. This number is calculated by taking the
number of steps to reach the lowest gain from the highest
gain, or 31 steps , and multiplying by the time per step, or
34 ms.
Shutdown Modes
The EUA6011A employs a shutdown mode of operation
designed to reduce supply current, IDD, to the absolute
minimum level during periods of nonuse for
battery-power conservation. The
input
SHUTDOWN
terminal should be held high during normal operation
when the amplifier is in use. Pulling low
SHUTDOWN
causes the outputs to mute and the amplifier to enter a
low-current state, IDD<1µA.
should never
SHUTDOWN
After the channel gain is stepped down to the lowest gain,
the amplifier begins discharging the bypass capacitor from
the nominal voltage of VDD/2 to ground.
be left unconnected because amplifier operation would be
unpredictable.
This time is dependent on the value of the bypass
capacitor. For a 0.47-µF capacitor that is used in the
application diagram in Figure 1, the time is approximately
500ms. This time scales linearly with the value of bypass
capacitor. For example, if a 1-µF capacitor is used for
bypass, the time period to discharge the capacitor to
ground is twice that of the 0.47-µF capacitor, or 1 second.
Figure 30 below is a waveform captured at the output
during the shutdown sequence when the part is in fade-on
mode. The gain is set to the highest level and the output is
at VDD when the amplifier is shut down.
Table 3 .
,
, and Shutdown Function
HP/LINE SE/BTL
Inputs
Amplifier State
INPUT OUTPUT
SE/BTL SHUTDOWN
HP/LINE
X
X
Low
High
High
High
High
X
Mute
BTL
SE
BTL
SE
Low
Low
High
High
Low
High
Low
High
Line
Line
HP
HP
X= Do not care
SHUTDOWN
When a logic high is placed on the
pin
pin is still held low, the device begins the
and the
FADE
start-up process, the bypass capacitor will begin charging.
Once the bypass voltage reaches the final value of
VDD/2 ,the gain increases in2-dB steps from the lowest
gain level to the gain level set by the dc voltage applied to
the VOLUME, SEDIFF, and SEMAX pins.
In the fade-off mode, the amplifier stores the gain value
prior the staring the shutdown sequence. The output of the
amplifier immediately drops to VDD/2 and the bypass
capacitor begins a smooth discharge to ground When
shutdown is released, the bypass capacitor charges up to
VDD/2 and the channel gain returns immediately to the
value stored in memory. Figure 31 below is a waveform
captured at the output during the shutdown sequence when
DS6011A Ver 1.0 Mar. 2006
15