NCP2820 Series
http://onsemi.com
13
8
2.5
3.5
4.5
5.5
POWER SUPPLY (V)
TURN
OFF
TIME
(mS)
TA = +85°C
6
7
8
9
10
11
2.5
3.5
4.5
5.5
Figure 33. Turn on Time
Figure 34. Turn off Time
POWER SUPPLY (V)
TURN
ON
TIME
(mS)
TA = +85°C
TA = +25°C
TA = 40°C
7
6
5
4
TA = 40°C
TA = +25°C
DESCRIPTION INFORMATION
Detailed Description
The basic structure of the NCP2820 is composed of one
analog preamplifier, a pulse width modulator and an
Hbridge CMOS power stage. The first stage is externally
configurable with gainsetting resistor Ri and the internal
fixed feedback resistor Rf (the closedloop gain is fixed by
the ratios of these resistors) and the other stage is fixed. The
load is driven differentially through two output stages.
The differential PWM output signal is a digital image of
the analog audio input signal. The human ear is a band pass
filter regarding acoustic waveforms, the typical values of
which are 20 Hz and 20 kHz. Thus, the user will hear only
the amplified audio input signal within the frequency range.
The switching frequency and its harmonics are fully filtered.
The inductive parasitic element of the loudspeaker helps to
guarantee a superior distortion value.
Power Amplifier
The output PMOS and NMOS transistors of the amplifier
have been designed to deliver the output power of the
specifications without clipping. The channel resistance
(Ron) of the NMOS and PMOS transistors is typically 0.4 W.
Turn On and Turn Off Transitions in the 9 Pin
FlipChip Package (NCP2820)
In order to eliminate “pop and click” noises during
transition, the output power in the load must not be
established or cutoff suddenly. When a logic high is applied
to the shutdown pin, the internal biasing voltage rises
quickly and, 4 ms later, once the output DC level is around
the common mode voltage, the gain is established slowly
(5.0 ms). This method to turn on the device is optimized in
terms of rejection of “pop and click” noises. Thus, the total
turn on time to get full power to the load is 9 ms (typical).
The device has the same behavior when it is turnedoff by
a logic low on the shutdown pin. No power is delivered to the
load 5 ms after a falling edge on the shutdown pin. Due to
the fast turn on and off times, the shutdown signal can be
used as a mute signal as well.
Turn On and Turn Off Transitions in the 9 Pin
FlipChip Package (NCP2820)
In the case of the NCP2820A, the sequences are the same
as the NCP2820. Only the timing is different with 1 ms for
the turn on and 500
ms for the turn off sequence.
Turn On and Turn Off Transitions in the UDFN8
In the case of the UDFN8 package, the audio signal is
established instantaneously after the rising edge on the
shutdown pin. The audio is also suddenly cut once a low
level is sent to the amplifier. This way to turn on and off the
device in a very fast way also prevents from “pop & click”
noise.
Shutdown Function
The device enters shutdown mode when the shutdown
signal is low. During the shutdown mode, the DC quiescent
current of the circuit does not exceed 1.5
mA.
Current Breaker Circuit
The maximum output power of the circuit corresponds to
an average current in the load of 820 mA.
In order to limit the excessive power dissipation in the
load if a shortcircuit occurs, a current breaker cell shuts
down the output stage. The current in the four output MOS
transistors are realtime controlled, and if one current
exceeds the threshold set to 1.5 A, the MOS transistor is
opened and the current is reduced to zero. As soon as the
shortcircuit is removed, the circuit is able to deliver the
expected output power.
This patented structure protects the NCP2820. Since it
completely turns off the load, it minimizes the risk of the
chip overheating which could occur if a soft current limiting
circuit was used.