MAX13330GEE/V+T Maxim Integrated Products, MAX13330GEE/V+T Datasheet - Page 8
MAX13330GEE/V+T
Manufacturer Part Number
MAX13330GEE/V+T
Description
IC AMP STEREO HEADPHONE 16-QSOP
Manufacturer
Maxim Integrated Products
Series
DirectDrive™r
Type
Class ABr
Datasheet
1.MAX13330GEEV.pdf
(15 pages)
Specifications of MAX13330GEE/V+T
Output Type
Headphones, 2-Channel (Stereo)
Max Output Power X Channels @ Load
135mW x 2 @ 32 Ohm
Voltage - Supply
4 V ~ 5.5 V
Features
Depop, Short-Circuit Protection, Shutdown
Mounting Type
Surface Mount
Package / Case
16-QSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Automotive DirectDrive Headphone Amplifiers
with Output Protection and Diagnostics
The MAX13330/MAX13331 headphone amplifiers fea-
ture Maxim’s DirectDrive architecture, eliminating the
large output-coupling capacitors required by conven-
tional single-supply headphone amplifiers. The devices
consists of two Class AB headphone amplifiers, under-
voltage lockout (UVLO), low-power shutdown control,
comprehensive click-and-pop suppression, output
short-circuit/ESD protection and output short-circuit
diagnostics.
These devices can drive loads as low as 8Ω, and deliv-
er up to 120mW per channel into 16Ω and 135mW into
32Ω. The MAX13330 features a fixed gain of -1.5V/V,
and the MAX13331 features a programmable gain con-
figured with external resistors. The headphone outputs
feature ±15kV Human Body Model ESD protection, and
enhanced short-circuit protection to ground or battery
(V
tic output provides the status of the MAX13330/
MAX13331 during operation as a fraction of the analog
supply voltage.
Conventional single-supply headphone amplifiers have
their outputs biased about a nominal DC voltage (typi-
cally half the supply) for maximum dynamic range.
Large coupling capacitors are needed to block this DC
bias from the headphone. Without these capacitors, a
significant amount of DC current flows to the head-
phone, resulting in unnecessary power dissipation and
possible damage to both the headphone and the head-
phone amplifier.
Maxim’s DirectDrive architecture uses a charge pump
to create an internal negative-supply voltage, allowing
the MAX13330/MAX13331 outputs to be biased about
SGND (Figure 1). With no DC component, there is no
need for the large DC-blocking capacitors. Instead of
two large (220µF, typ) tantalum capacitors, the
MAX13330/MAX13331 charge pump requires two small
ceramic capacitors, conserving board space, reducing
cost, and improving the frequency response of the
headphone amplifier. See the Output Power vs. Load
Resistance graph in the Typical Operating
Characteristics for details of the possible capacitor
sizes. There is a low DC voltage on the amplifier out-
puts due to amplifier offset. However, the output offset
of the MAX13330 is typically ±2.5mV which, when com-
bined with a 32Ω load, results in less than ±78µA of DC
current flow to the headphones. Previous attempts to
eliminate the output-coupling capacitors involved bias-
ing the headphone return (sleeve) to the DC-bias volt-
age of the headphone amplifiers.
8
BAT
_______________________________________________________________________________________
up to +45V). An integrated short-circuit diagnos-
Detailed Description
DirectDrive
This method raises some issues:
•
•
•
Figure 1. Conventional Driver Output Waveform vs. MAX13330/
MAX13331 Output Waveform
The sleeve is typically grounded to the chassis.
Using this biasing approach, the sleeve must be
isolated from system ground, complicating product
design.
During an ESD strike, the amplifier’s ESD structures
are the only path to system ground. Thus, the ampli-
fier must be able to withstand the full ESD strike.
When using the headphone jack as a line out to
other equipment, the bias voltage on the sleeve
may conflict with the ground potential from other
equipment, resulting in possible damage to the
amplifiers.
V
V
OUT
OUT
CONVENTIONAL DRIVER-BIASING SCHEME
DirectDrive BIASING SCHEME
V
V
GND
V
GND
V
DD
DD
DD
SS
/2
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