WM8958 Product Brief

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WM8958
Multi-Channel Audio Hub CODEC for Smartphones
DESCRIPTION
[1]
The WM8958 is a highly integrated ultra-low power hi-fi
CODEC designed for smartphones and other portable devices
rich in multimedia features.
An integrated stereo class D/AB speaker driver and class W
headphone driver minimize power consumption during audio
playback.
The device requires only two voltage supplies, with all other
internal supply rails generated from integrated LDOs.
FEATURES





Stereo full duplex asynchronous sample rate conversion and
multi-channel digital mixing combined with powerful analogue
mixing allow the device to support a huge range of different
architectures and use cases.



A multiband compressor and programmable parametric EQ
provide volume maximisation and speaker compensation in the
digital playback paths. The dynamic range controller can be
used in record or playback paths for maintaining a constant
signal level, maximizing loudness and protecting speakers
against overloading and clipping.



A smart digital microphone interface provides power regulation,
a low jitter clock output and decimation filters for up to four
digital microphones. Microphone activity detection with interrupt
is available. Impedance sensing and measurement is provided
for external accessory / push-button detection.
Fully differential internal architecture and on-chip RF noise filters
ensure a very high degree of noise immunity. Active ground loop
noise rejection and DC offset correction help prevent pop noise
and suppress ground noise on the headphone outputs.



24-bit 4-channel hi-fi DAC and 2-channel hi-fi ADC
100dB SNR during DAC playback (‘A’ weighted)
Smart MIC interface
- Power, clocking and data input for up to four digital MICs
- High performance analogue MIC interface
- MIC activity detect & interrupt allows processor to sleep
2W stereo (2 x 2W) class D/AB speaker driver
Capless Class W headphone drivers
- Integrated charge pump
- 5.3mW total power for DAC playback to headphones
4 Line outputs (single-ended or differential)
BTL Earpiece driver
Digital audio interfaces for multi-processor architecture
- Asynchronous stereo duplex sample rate conversion
- Powerful mixing and digital loopback functions
TM
ReTune Mobile 5-band, 6-channel parametric EQ
Multiband compressor and dynamic range controller
Dual FLL provides all necessary clocks
- Self-clocking modes allow processor to sleep
- All standard sample rates from 8kHz to 96kHz
Active noise reduction circuits
- DC offset correction removes pops and clicks
- Ground loop noise cancellation
Integrated LDO regulators
72-ball W-CSP package (4.516 x 4.258 x 0.698mm)
APPLICATIONS





Smartphones and music phones
Portable navigation
Tablets
eBooks
Portable Media Players
WOLFSON MICROELECTRONICS plc
Product Brief, August 2012, Rev 3.2
[1] This product is protected by Patents US 7,622,984, US 7,626,445,US 7,765,019 and GB 2,432,765
To receive regular email updates, sign up at http://www.wolfsonmicro.com/enews
Copyright 2012 Wolfson Microelectronics plc
WM8958
Pre-Production
TABLE OF CONTENTS
DESCRIPTION ....................................................................................................... 1 FEATURES ............................................................................................................ 1 APPLICATIONS..................................................................................................... 1 TABLE OF CONTENTS ......................................................................................... 2 PIN CONFIGURATION .......................................................................................... 3 ORDERING INFORMATION .................................................................................. 3 PIN DESCRIPTION ................................................................................................ 4 ABSOLUTE MAXIMUM RATINGS ........................................................................ 7 RECOMMENDED OPERATING CONDITIONS ..................................................... 8 DEVICE DESCRIPTION ........................................................................................ 9 RECOMMENDED EXTERNAL COMPONENTS.................................................. 11 PACKAGE DIMENSIONS .................................................................................... 12 IMPORTANT NOTICE ......................................................................................... 13 ADDRESS: ..................................................................................................................... 13 REVISION HISTORY ........................................................................................... 14 w
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PIN CONFIGURATION
ORDERING INFORMATION
ORDER CODE
TEMPERATURE RANGE
PACKAGE
MOISTURE
SENSITIVITY LEVEL
PEAK SOLDERING
TEMPERATURE
-40C to +85C
72-ball W-CSP
(Pb-free, Tape and reel)
MSL1
260C
WM8958ECS/R
Note:
Reel quantity = 5000
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PIN DESCRIPTION
A description of each pin on the WM8958 is provided below.
Note that a table detailing the associated power domain for every input and output pin is provided on the following page.
Note that, where multiple pins share a common name, these pins should be tied together on the PCB.
PIN NO
NAME
F1
ADCDAT1
F4
ADCDAT2
D3
ADDR
TYPE
Digital Output
DESCRIPTION
Audio interface 1 ADC digital audio data
Digital Output
Audio interface 2 ADC digital audio data
Digital Input
2-wire (I2C) address select
D7, E6
AGND
Supply
Analogue ground (Return path for AVDD1, AVDD2 and LDO1VDD)
D8
AVDD1
Supply / Analogue
Output
Analogue core supply / LDO1 Output
D9
AVDD2
Supply
Bandgap reference, analogue class D and FLL supply
F2
BCLK1
Digital Input / Output
Audio interface 1 bit clock
G3
BCLK2
Digital Input / Output
Audio interface 2 bit clock
G8
CPCA
Analogue Output
Charge pump fly-back capacitor pin
H8
CPCB
Analogue Output
Charge pump fly-back capacitor pin
H9
CPGND
Supply
Charge pump ground (Return path for CPVDD)
G9
CPVDD
Supply
Charge pump supply
H7
CPVOUTN
Analogue Output
Charge pump negative supply decoupling pin (HPOUT1L, HPOUT1R)
G7
CPVOUTP
Analogue Output
Charge pump positive supply decoupling pin (HPOUT1L, HPOUT1R)
G1
DACDAT1
Digital Input
Audio interface 1 DAC digital audio data
E4
DACDAT2
D1
DBVDD1
Digital Input / Output
Audio interface 2 DAC digital audio data
Supply
Digital buffer (I/O) supply (core functions and Audio Interface 1)
F3
DBVDD2
Supply
Digital buffer (I/O) supply (for Audio Interface 2)
H5
DBVDD3
Supply
Digital buffer (I/O) supply (for Audio Interface 3)
E2
DCVDD
Supply / Analogue
Output
Digital core supply / LDO2 output
G5
DGND
Supply
Digital ground (Return path for DCVDD, DBVDD1, DBVDD2, DBVDD3)
D6
DMICCLK
H1
GPIO1/
Digital Output
Digital MIC clock output
Digital Input / Output
General Purpose pin GPIO 1 /
Digital Input / Output
General Purpose pin GPIO 10 /
Digital Input / Output
General Purpose pin GPIO 11 /
Digital Input / Output
General Purpose pin GPIO 6 /
Digital Input / Output
General Purpose pin GPIO 8 /
Audio interface 1 ADC left / right clock
ADCLRCLK1
F5
GPIO10/
E5
GPIO11/
H3
GPIO6/
Audio interface 3 left / right clock
LRCLK3
Audio interface 3 bit clock
BCLK3
Audio interface 2 ADC left / right clock
ADCLRCLK2
G4
GPIO8/
Audio interface 3 DAC digital audio data
DACDAT3
H4
GPIO9/
Digital Input / Output
General Purpose pin GPIO 9 /
Supply
Analogue ground
Audio interface 3 ADC digital audio data
ADCDAT3
F7
HP2GND
G6
HPOUT1FB
Analogue Input
HPOUT1L and HPOUT1R ground loop noise rejection feedback
H6
HPOUT1L
Analogue Output
Left headphone output
F6
HPOUT1R
Analogue Output
Right headphone output
F9
HPOUT2N
Analogue Output
Earpiece speaker inverted output
F8
HPOUT2P
Analogue Output
Earpiece speaker non-inverted output
C7
IN1LN
Analogue Input
Left channel single-ended MIC input /
Left channel negative differential MIC input
C8
IN1LP
Analogue Input
Left channel line input /
Left channel positive differential MIC input
B7
IN1RN
Analogue Input
Right channel single-ended MIC input /
Right channel negative differential MIC input
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PIN NO
NAME
C6
IN1RP
Analogue Input
TYPE
DESCRIPTION
B9
IN2LN/
Analogue Input /
Left channel line input /
Digital Input
Left channel negative differential MIC input /
Right channel line input /
Right channel positive differential MIC input
DMICDAT1
Digital MIC data input 1
B8
IN2LP/VRXN
Analogue Input
Left channel line input /
Left channel positive differential MIC input /
Mono differential negative input (RXVOICE -)
A8
DMICDAT2
Analogue Input /
Digital Input
IN2RP/VRXP
Analogue Input
IN2RN/
Right channel line input /
Right channel negative differential MIC input /
Digital MIC data input 2
A9
Left channel line input /
Left channel positive differential MIC input /
Mono differential positive input (RXVOICE +)
C3
LDO1ENA
Digital Input
Enable pin for LDO1
E8
LDO1VDD
Supply
Supply for LDO1
D5
LDO2ENA
Digital Input
Enable pin for LDO2
C5
LINEOUT1N
Analogue Output
Negative mono line output / Positive left or right line output
B5
LINEOUT1P
Analogue Output
Positive mono line output / Positive left line output
C4
LINEOUT2N
Analogue Output
Negative mono line output / Positive left or right line output
B4
LINEOUT2P
Analogue Output
Positive mono line output / Positive left line output
Analogue Input
Line output ground loop noise rejection feedback
Audio interface 1 left / right clock
A6
LINEOUTFB
D4
LRCLK1
Digital Input / Output
H2
LRCLK2
Digital Input / Output
Audio interface 2 left / right clock
E1
MCLK1
Digital Input
Master clock 1
D2
MCLK2
Digital Input
Master clock 2
A7
MICBIAS1
Analogue Output
Microphone bias 1
B6
MICBIAS2
Analogue Output
Microphone bias 2
E9
MICDET
Analogue Input
Microphone & accessory sense input
A5
REFGND
Supply
Analogue ground
E3
SCLK
Digital Input
Control interface clock input
G2
SDA
Digital Input / Output
Control interface data input and output / acknowledge output
A1
SPKGND1
Supply
Ground for speaker driver (Return path for SPKVDD1)
C1
SPKGND2
Supply
Ground for speaker driver (Return path for SPKVDD2)
A4
SPKMODE
Digital Input
Mono / Stereo speaker mode select
B3
SPKOUTLN
Analogue Output
Left speaker negative output
A3
SPKOUTLP
Analogue Output
Left speaker positive output
B1
SPKOUTRN
Analogue Output
Right speaker negative output
B2
SPKOUTRP
Analogue Output
Right speaker positive output
A2
SPKVDD1
Supply
Supply for speaker driver 1 (Left channel)
C2
SPKVDD2
Supply
Supply for speaker driver 2 (Right channel)
C9
VMIDC
Analogue Output
Midrail voltage decoupling capacitor
E7
VREFC
Analogue Output
Bandgap reference decoupling capacitor
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The following table identifies the power domain and ground reference associated with each of the input / output pins.
PIN NO
NAME
F1
ADCDAT1
DBVDD1
POWER DOMAIN
DGND
GROUND DOMAIN
F4
ADCDAT2
DBVDD2
DGND
D3
ADDR
DBVDD1
DGND
F2
BCLK1
DBVDD1
DGND
G3
BCLK2
DBVDD2
DGND
G1
DACDAT1
DBVDD1
DGND
E4
DACDAT2
DBVDD2
DGND
D6
DMICCLK
MICBIAS1
AGND
H1
GPIO1/ADCLRCLK1
DBVDD1
DGND
H3
GPIO6/ADCLRCLK2
DBVDD2
DGND
G4
GPIO8/DACDAT3
DBVDD3
DGND
H4
GPIO9/ADCDAT3
DBVDD3
DGND
F5
GPIO10/LRCLK3
DBVDD3
DGND
DBVDD3
DGND
E5
GPIO11/BCLK3
H6
HPOUT1L
CPVOUTP, CPVOUTN
CPGND
F6
HPOUT1R
CPVOUTP, CPVOUTN
CPGND
F9
HPOUT2N
AVDD1
HP2GND
F8
HPOUT2P
AVDD1
HP2GND
C7
IN1LN
AVDD1
AGND
C8
IN1LP
AVDD1
AGND
B7
IN1RN
AVDD1
AGND
AVDD1
AGND
AVDD1 (IN2LN) or
AGND
C6
IN1RP
B9
IN2LN/DMICDAT1
MICBIAS1 (DMICDAT1)
B8
IN2LP/VRXN
A8
IN2RN/DMICDAT2
AVDD1
AGND
AVDD1 (IN2RN) or
AGND (IN2RN) or
MICBIAS1 (DMICDAT2)
DGND (DMICDAT2)
AVDD1
AGND
A9
IN2RP/VRXP
C3
LDO1ENA
DBVDD1
DGND
D5
LDO2ENA
DBVDD1
DGND
C5
LINEOUT1N
AVDD1
AGND
B5
LINEOUT1P
AVDD1
AGND
C4
LINEOUT2N
AVDD1
AGND
AVDD1
AGND
DGND
B4
LINEOUT2P
D4
LRCLK1
DBVDD1
H2
LRCLK2
DBVDD2
DGND
E1
MCLK1
DBVDD1
DGND
DGND
D2
MCLK2
DBVDD1
E9
MICDET
MICBIAS2
AGND
E3
SCLK
DBVDD1
DGND
G2
SDA
DBVDD1
DGND
A4
SPKMODE
DBVDD1
DGND
B3
SPKOUTLN
SPKVDD1
SPKGND1
A3
SPKOUTLP
SPKVDD1
SPKGND1
B1
SPKOUTRN
SPKVDD2
SPKGND2
B2
SPKOUTRP
SPKVDD2
SPKGND2
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ABSOLUTE MAXIMUM RATINGS
Absolute Maximum Ratings are stress ratings only. Permanent damage to the device may be caused by continuously
operating at or beyond these limits. Device functional operating limits and guaranteed performance specifications are given
under Electrical Characteristics at the test conditions specified.
ESD Sensitive Device. This device is manufactured on a CMOS process. It is therefore generically susceptible
to damage from excessive static voltages. Proper ESD precautions must be taken during handling and storage
of this device.
Wolfson tests its package types according to IPC/JEDEC J-STD-020B for Moisture Sensitivity to determine acceptable storage
conditions prior to surface mount assembly. These levels are:
MSL1 = unlimited floor life at <30C / 85% Relative Humidity. Not normally stored in moisture barrier bag.
MSL2 = out of bag storage for 1 year at <30C / 60% Relative Humidity. Supplied in moisture barrier bag.
MSL3 = out of bag storage for 168 hours at <30C / 60% Relative Humidity. Supplied in moisture barrier bag.
The Moisture Sensitivity Level for each package type is specified in Ordering Information.
MIN
MAX
Supply voltages (AVDD1, DBVDD2, DBVDD3)
CONDITION
-0.3V
+4.5V
Supply voltages (AVDD2, DCVDD, DBVDD1)
-0.3V
+2.5V
Supply voltages (CPVDD)
-0.3V
+2.2V
Supply voltages (SPKVDD1, SPKVDD2, LDO1VDD)
-0.3V
+7.0V
Voltage range digital inputs (DBVDD1 domain)
AGND -0.3V
DBVDD1 +0.3V
Voltage range digital inputs (DBVDD2 domain)
AGND -0.3V
DBVDD2 +0.3V
Voltage range digital inputs (DBVDD3 domain)
AGND -0.3V
DBVDD3 +0.3V
Voltage range digital inputs (DMICDATn)
AGND - 0.3V
AVDD1 + 0.3V
Voltage range analogue inputs (AVDD1 domain)
AGND -0.3V
AVDD1 +0.3V
Voltage range analogue inputs (MICDET, LINEOUTFB)
AGND - 0.3V
AVDD1 + 0.3V
Voltage range analogue inputs (HPOUT1FB)
AGND - 0.3V
AGND + 0.3V
Ground (DGND, CPGND, SPKGND1, SPKGND2, REFGND, HP2GND)
AGND - 0.3V
AGND + 0.3V
Operating temperature range, TA
-40ºC
+85ºC
Junction temperature, TJMAX
-40ºC
+150ºC
Storage temperature after soldering
-65ºC
+150ºC
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RECOMMENDED OPERATING CONDITIONS
PARAMETER
SYMBOL
MIN
TYP
MAX
UNIT
Digital supply range (Core)
DCVDD
1.08
1.2
2.0
V
See notes 7,8
Digital supply range (I/O)
DBVDD1
1.62
1.8
2.0
V
Digital supply range (I/O)
DBVDD2, DBVDD3
1.62
1.8
3.6
V
Analogue supply 1 range
AVDD1
2.4
3.0
3.3
V
AVDD2
1.71
1.8
2.0
V
See notes 3,4,5,6
Analogue supply 2 range
Charge Pump supply range
Speaker supply range
LDO1 supply range
Ground
Power supply rise time
(notes 6, 7 and 8)
Operating temperature range
CPVDD
1.71
1.8
2.0
V
SPKVDD1, SPKVDD2
2.7
5.0
5.5
V
LDO1VDD
2.7
5.0
5.5
V
0
DGND, AGND, CPGND,
SPKGND1, SPKGND2,
REFGND, HP2GND
All supplies
1
TA
-40
V
s
85
°C
Notes:
1.
Analogue, digital and speaker grounds must always be within 0.3V of AGND..
2.
There is no power sequencing requirement; the supplies may be enabled in any order.
3.
AVDD1 must be less than or equal to SPKVDD1 and SPKVDD2.
4.
An internal LDO (powered by LDO1VDD) can be used to provide the AVDD1 supply.
5.
When AVDD1 is supplied externally (not from LDO1), the LDO1VDD voltage must be greater than or equal to AVDD1.
6.
The WM8958 can operate with AVDD1 tied to 0V; power consumption may be reduced, but the analogue audio
functions will not be supported.
7.
An internal LDO (powered by DBVDD1) can be used to provide the DCVDD supply.
8.
When DCVDD is supplied externally (not from LDO2), the DBVDD1 voltage must be greater than or equal to DCVDD.
9.
DCVDD and AVDD1 minimum rise times do not apply when these domains are powered using the internal LDOs.
10. The specified minimum power supply rise times assume a minimum decoupling capacitance of 100nF per pin.
However, Wolfson strongly advises that the recommended decoupling capacitors are present on the PCB and that
appropriate layout guidelines are observed (see “Applications Information” section).
11. The specified minimum power supply rise times also assume a maximum PCB inductance of 10nH between
decoupling capacitor and pin.
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DEVICE DESCRIPTION
The WM8958 is a low power, high quality audio codec designed to interface with a wide range of
processors and analogue components. A high level of mixed-signal integration in a very small
footprint makes it ideal for portable applications such as mobile phones. Fully differential internal
architecture and on-chip RF noise filters ensure a very high degree of noise immunity.
Three sets of audio interface pins are available in order to provide independent and fully
asynchronous connections to multiple processors, typically an application processor, baseband
processor and wireless transceiver. Any two of these interfaces can operate totally independently and
asynchronously while the third interface can be synchronised to either of the other two and can also
provide ultra low power loopback modes to support, for example, wireless headset voice calls.
Four digital microphone input channels are available to support advanced multi-microphone
applications such as noise cancellation. An integrated microphone activity monitor is available to
enable the processor to sleep during periods of microphone inactivity, saving power.
Four DAC channels are available to support use cases requiring up to four simultaneous digital audio
streams to the output drivers.
Eight highly flexible analogue inputs allow interfacing to up to four microphone inputs (single-ended or
differential), plus multiple stereo or mono line inputs. Connections to an external voice CODEC, FM
radio, line input, handset MIC and headset MIC are all fully supported. Signal routing to the output
mixers and within the CODEC has been designed for maximum flexibility to support a wide variety of
usage modes. A ‘Direct Voice’ path from a voice CODEC directly to the Speaker or Earpiece output
drivers is included.
Nine analogue output drivers are integrated, including a stereo pair of high power, high quality
Class D/AB switchable speaker drivers; these can support 2W each in stereo mode. It is also possible
to configure the speaker drivers as a mono output, giving enhanced performance. A mono earpiece
driver is provided, providing output from the output mixers or from the low-power differential ‘Direct
Voice’ path.
One pair of ground-referenced headphone outputs is provided; these are powered from an integrated
Charge Pump, enabling high quality, power efficient headphone playback without any requirement for
DC blocking capacitors. A DC Servo circuit is available for DC offset correction, thereby suppressing
pops and reducing power consumption. Four line outputs are provided, with multiple configuration
options including 4 x single-ended output or 2 x differential outputs. The line outputs are suitable for
output to a voice CODEC, an external speaker driver or line output connector. Ground loop feedback
is available on the headphone outputs and the line outputs, providing rejection of noise on the ground
connections. All outputs have integrated pop and click suppression features.
Internal differential signal routing and amplifier configurations have been optimised to provide the
highest performance and lowest possible power consumption for a wide range of usage scenarios,
including voice calls and music playback. The speaker drivers offer low leakage and high PSRR; this
enables direct connection to a Lithium battery. The speaker drivers provide eight levels of AC and DC
gain to allow output signal levels to be maximised for many commonly-used SPKVDD/AVDD1
combinations.
The ADCs and DACs are of hi-fi quality, using a 24-bit low-order oversampling architecture to deliver
optimum performance. A flexible clocking arrangement supports mixed sample rates, whilst integrated
ultra-low power dual FLLs provide additional flexibility. A high pass filter is available in all ADC and
digital MIC paths for removing DC offsets and suppressing low frequency noise such as mechanical
vibration and wind noise. A digital mixing path from the ADC or digital MICs to the DAC provides a
sidetone of enhanced quality during voice calls. DAC soft mute and un-mute is available for pop-free
music playback.
TM
The integrated Multiband Compressors (MBC), Dynamic Range Controllers (DRC) and ReTune
Mobile 5-band parametric equaliser (EQ) provide further processing capability of the digital audio
paths. The MBC enables the loudness of the digital playback path to be maximised without
overdriving the loudspeakers. The RMS Limiter within the MBC function enables the maximum signal
level to be matched to the application requirements and/or power rating of the loudspeaker. The DRC
provides compression and signal level control to improve the handling of unpredictable signal levels.
‘Anti-clip’ and ‘quick release’ algorithms improve intelligibility in the presence of transients and
impulsive noises. The EQ provides the capability to tailor the audio path according to the frequency
characteristics of an earpiece or loudspeaker, and/or according to user preferences.
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The WM8958 has highly flexible digital audio interfaces, supporting a number of protocols, including
2
I S, DSP, MSB-first left/right justified, and can operate in master or slave modes. PCM operation is
supported in the DSP mode. A-law and -law companding are also supported. Time division
multiplexing (TDM) is available to allow multiple devices to stream data simultaneously on the same
bus, saving space and power. The four digital MIC and ADC channels and four DAC channels are
available via four TDM channels on Digital Audio Interface 1 (AIF1).
A powerful digital mixing core allows data from each TDM channel of each audio interface and from
the ADCs and digital MICs to be mixed and re-routed back to a different audio interface and to the 4
DAC output channels. The digital mixing core can operate synchronously with either Audio Interface 1
or Audio Interface 2, with asynchronous stereo full duplex sample rate conversion performed on the
other audio interface as required.
The system clock (SYSCLK) provides clocking for the ADCs, DACs, DSP core, digital audio interface
and other circuits. SYSCLK can be derived directly from one of the MCLK1 or MCLK2 pins or via one
of two integrated FLLs, providing flexibility to support a wide range of clocking schemes, including
self-clocking FLL modes. Typical portable system MCLK frequencies, and sample rates from 8kHz to
96kHz are all supported. A low frequency (eg. 32.768kHz) clock can be used as the input reference to
the FLLs, providing further flexibility. Automatic configuration of the clocking circuits is available,
derived from the sample rate and from the MCLK / SYSCLK ratio.
The WM8958 uses a standard 2-wire control interface, providing full software control of all features,
together with device register readback. An integrated Control Write Sequencer enables automatic
scheduling of control sequences; commonly-used signal configurations may be selected using readyprogrammed sequences, including time-optimised control of the WM8958 pop suppression features. It
is an ideal partner for a wide range of industry standard microprocessors, controllers and DSPs.
Unused circuitry can be disabled under software control, in order to save power; low leakage currents
enable extended standby/off time in portable battery-powered applications.
Versatile GPIO functionality is provided, with support for button/accessory detect inputs, or for clock,
system status, or programmable logic level output for control of additional external circuitry. Interrupt
logic, status readback and de-bouncing options are supported within this functionality.
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RECOMMENDED EXTERNAL COMPONENTS
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PACKAGE DIMENSIONS
DM119.A
B: 72 BALL W-CSP PACKAGE 4.516 X 4.258 X 0.698 mm BODY, 0.50 mm BALL PITCH
DETAIL 1
2
A
g
9
A2
7
8
6
3
4
5
2
D
6
1
A
A
4
B
A1
CORNER
C
D
E
e E1
5
E
F
G
H
2X
ddd
e
DETAIL 2
M
aaa B
B
Z AB
2X
D1
aaa A
BOTTOM VIEW
TOP VIEW
f1
SOLDER BALL
f2
bbb Z
h
1
Z
ccc
Symbols
A
MIN
0.658
0.206
A1
A2
D
D1
E
E1
e
f1
0.246
f2
0.367
0.418
4.491
4.233
Z
DETAIL 2
Dimensions (mm)
NOM
MAX
0.698
0.738
0.242
0.278
0.450
0.434
4.516
4.541
4.00 BSC
4.258
4.283
3.50 BSC
0.50 BSC
g
h
aaa
A1
NOTE
5
8
9
0.022
0.264
bbb
ccc
ddd
0.314
0.025
0.060
0.364
0.030
0.015
NOTES:
1. PRIMARY DATUM -Z- AND SEATING PLANE ARE DEFINED BY THE SPHERICAL CROWNS OF THE SOLDER BALLS.
2. THIS DIMENSION INCLUDES STAND-OFF HEIGHT ‘A1’ AND BACKSIDE COATING.
3. A1 CORNER IS IDENTIFIED BY INK/LASER MARK ON TOP PACKAGE.
4. BILATERAL TOLERANCE ZONE IS APPLIED TO EACH SIDE OF THE PACKAGE BODY.
5. ‘e’ REPRESENTS THE BASIC SOLDER BALL GRID PITCH.
6. THIS DRAWING IS SUBJECT TO CHANGE WITHOUT NOTICE.
7. FOLLOWS JEDEC DESIGN GUIDE MO-211-C.
8. f1 = NOMINAL DISTANCE OF BALL CENTRE TO DIE EDGE X AXIS (AS PER POD) – APPLICABLE TO ALL CORNERS OF DIE.
9. f2 = NOMINAL DISTANCE OF DIE CENTRE TO DIE EDGE IN Y AXIS (AS PER POD) – APPLICABLE TO ALL CORNERS OF DIE.
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Pre-Production
WM8958
IMPORTANT NOTICE
Wolfson Microelectronics plc (“Wolfson”) products and services are sold subject to Wolfson’s terms and conditions of sale,
delivery and payment supplied at the time of order acknowledgement.
Wolfson warrants performance of its products to the specifications in effect at the date of shipment. Wolfson reserves the
right to make changes to its products and specifications or to discontinue any product or service without notice. Customers
should therefore obtain the latest version of relevant information from Wolfson to verify that the information is current.
Testing and other quality control techniques are utilised to the extent Wolfson deems necessary to support its warranty.
Specific testing of all parameters of each device is not necessarily performed unless required by law or regulation.
In order to minimise risks associated with customer applications, the customer must use adequate design and operating
safeguards to minimise inherent or procedural hazards. Wolfson is not liable for applications assistance or customer
product design. The customer is solely responsible for its selection and use of Wolfson products. Wolfson is not liable for
such selection or use nor for use of any circuitry other than circuitry entirely embodied in a Wolfson product.
Wolfson’s products are not intended for use in life support systems, appliances, nuclear systems or systems where
malfunction can reasonably be expected to result in personal injury, death or severe property or environmental damage.
Any use of products by the customer for such purposes is at the customer’s own risk.
Wolfson does not grant any licence (express or implied) under any patent right, copyright, mask work right or other
intellectual property right of Wolfson covering or relating to any combination, machine, or process in which its products or
services might be or are used. Any provision or publication of any third party’s products or services does not constitute
Wolfson’s approval, licence, warranty or endorsement thereof. Any third party trade marks contained in this document
belong to the respective third party owner.
Reproduction of information from Wolfson datasheets is permissible only if reproduction is without alteration and is
accompanied by all associated copyright, proprietary and other notices (including this notice) and conditions. Wolfson is
not liable for any unauthorised alteration of such information or for any reliance placed thereon.
Any representations made, warranties given, and/or liabilities accepted by any person which differ from those contained in
this datasheet or in Wolfson’s standard terms and conditions of sale, delivery and payment are made, given and/or
accepted at that person’s own risk. Wolfson is not liable for any such representations, warranties or liabilities or for any
reliance placed thereon by any person.
ADDRESS:
Wolfson Microelectronics plc
26 Westfield Road
Edinburgh
EH11 2QB
United Kingdom
Tel :: +44 (0)131 272 7000
Fax :: +44 (0)131 272 7001
Email :: [email protected]
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Product Brief, August 2012, Rev 3.2
13
WM8958
Pre-Production
REVISION HISTORY
DATE
REV
DESCRIPTION OF CHANGES
27/09/10
2.0
Initial version
14/10/10
2.1
Tablets, EBooks and PMP added to Applications
04/04/11
2.2
2W Stereo (into 4ohms) now specified.
Noted RF suppression on analogue inputs.
Reel order quantity updated
07/04/11
3.0
Revision updated to reflect datasheet revision / production status change
04/10/11
3.1
Pin Description table re-ordered (by Pin Name), noting that any pins with a common name (eg.
AGND) should be tied together on the PCB.
25/04/12
3.1
Front page updated
25/04/12
3.1
Power domain table added, p6
25/04/12
3.1
Additional details in Absolute Maximum Ratings.
25/04/12
3.1
Recommended Operating Conditions updated
25/04/12
3.1
Device Description, 10 para updated.
09/08/12
3.2
Package Diagram changed to DM119.A
Added Table of Contents
th
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