WOLFSON WM8232

WM8232
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70MSPS 3-Channel AFE with Sensor Timing Generation and
LVDS/CMOS Data Output
DESCRIPTION
FEATURES
The WM8232 is a 16-bit analogue front end/digitiser IC
which processes and digitises the analogue output signals
from CCD sensors or Contact Image Sensors (CIS) at pixel
sample rates of up to 35MSPS.

70MSPS conversion rate


16 bit ADC resolution
Current consumption – 230mA


3.3V single supply operation
Sample and hold /correlated double sampling


Programmable offset adjust (8-bit resolution)
Flexible clamp timing


Pixel clamp / line clamp mode
Programmable clamp voltage


Programmable CIS/CCD timing generator
Internally generated voltage references


Compliant for Spread Spectrum Clock
LVDS/CMOS output options
The device has three analogue signal processing channels
each of which contains Reset Level Clamping, Correlated
Double Sampling (also Sample and Hold), Programmable
Gain, Automatic Gain Control (AGC) and Offset adjust
functions.
The output from each of these channels is time multiplexed,
in pairs, into three high-speed 16-bit Analogue to Digital
Converters. The digital data is available in a variety of
output formats via the flexible data port.
The WM8232 has a user selectable LVDS or CMOS output
architecture.
An internal 8-bit DAC is supplied for internal reference level
generation. This may be used during CDS to reference CIS
signals or during Clamping to clamp CCD signals. An
external reference level may also be supplied. ADC
references are generated internally, ensuring optimum
performance from the device.
A programmable automatic Black Level Calibration function
is available to adjust the DC offset of the output data.
The WM8232 features a sensor timing clock generator for
both CCD and CIS sensors. The clock generator can accept
a slow or fast reference clock input and also has a flexible
timing adjustment function for output timing clocks to allow
use of many different sensors.
-
LVDS 5pair 490MHz 35-bit data
CMOS 90MHz output maximum


Complete on chip clock generator. MCLK 5MHz to 35MHz
Internal timing adjustment


Automatic Gain Control
Automatic Black Level Calibration


56-lead QFN package 8mm x 8mm
Serial control interface
APPLICATIONS


Digital Copiers
USB2.0 compatible scanners


Multi-function peripherals
High-speed CCD/CIS sensor interface
WOLFSON MICROELECTRONICS plc
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Product Brief, February 2012, Rev 3.0
Copyright 2012 Wolfson Microelectronics plc.
WM8232
Product Brief
TGSYNC
CLK3
CLK4
CLK5
CLK6
CLK7
CLK8
CLK9
CLK10
CLK11
CLK1
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CLK2
BLOCK DIAGRAM
Product Brief, Rev 3.0, February 2012
2
WM8232
Product Brief
TABLE OF CONTENTS
DESCRIPTION ....................................................................................................... 1 FEATURES ............................................................................................................ 1 APPLICATIONS..................................................................................................... 1 BLOCK DIAGRAM ................................................................................................ 2 TABLE OF CONTENTS ......................................................................................... 3 PIN CONFIGURATION .......................................................................................... 4 ORDERING INFORMATION .................................................................................. 4 PIN DESCRIPTION ................................................................................................ 5 ABSOLUTE MAXIMUM RATINGS ........................................................................ 7 RECOMMENDED OPERATING CONDITIONS ..................................................... 7 ELECTRICAL CHARACTERISTICS ..................................................................... 8 GENERAL CHARACTERISTICS ..................................................................................... 9 APPLICATION INFORMATION ........................................................................... 11 RECOMMENDED EXTERNAL COMPONENTS ........................................................... 11 RECOMMENDED EXTERNAL COMPONENT VALUES .............................................. 12 PACKAGE DIMENSIONS .................................................................................... 13 IMPORTANT NOTICE ......................................................................................... 14 ADDRESS: .................................................................................................................... 14 REVISION HISTORY ........................................................................................... 15 w
Product Brief, Rev 3.0, February 2012
3
WM8232
Product Brief
AGND3
CLK11
CLK10
CLK9
D2P/OP3
D1N/OP2
D1P/OP1
NC
IN1
AGND2
AVDD2
NC
D2N/OP4
D3P/OP5
D3N/OP6
DBVDD
DBGND
IN2
DCLKP/OC1
IN3
NC
DCLKN/OC2
D4P/OP7
AVDD1
D5P/OP9
D4N/OP8
AGND1
D5N/OP10
PIN CONFIGURATION
ORDERING INFORMATION
DEVICE
TEMPERATURE
RANGE
PACKAGE
MOISTURE
SENSITIVITY
LEVEL
PEAK
SOLDERING
TEMPERATURE
MSL3
260C
MSL3
260C
56-lead QFN
WM8232GEFL/V
o
-40 to 85 C
(8X8x0.85mm)
(Pb-free)
56-lead QFN
WM8232GEFL/RV
o
-40 to 85 C
(8X8x0.85mm)
(Pb-free, tape and reel)
Reel quantity = 2,200
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Product Brief, Rev 3.0, February 2012
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Product Brief
WM8232
PIN DESCRIPTION
DESCRIPTION
PIN
NAME
Type
1
VREF2C
Analogue output
2
VRLC/VBIAS
Analogue I/O
3
VREF3C
Analogue output
Lower reference voltage.
This pin must be connected to AGND via a decoupling capacitor.
4
VREF1C
Analogue output
Upper reference voltage.
This pin must be connected to AGND via a decoupling capacitor.
Mid reference voltage.
This pin must be connected to AGND via a decoupling capacitor.
Reference voltage input/output
Enables the serial interface when high.
5
SEN
Digital input
6
SDO
Digital output
7
SCK
Digital input
Serial interface clock
8
SDI
Digital input
Serial interface data input
9
LDO2VDD
Supply
Analogue supply
10
LDO2GND
Supply
Analogue ground
11
LDO2VOUT
Supply
LDO output.
12
DSLCT2
Analogue input
Device select 2
13
MCLK
Analogue input
Master Clock
14
DSLCT1
Analogue input
Device select 1
15
D5N/OP[9]
LVDS output
LVDS Data output 5 – Negative / CMOS output 11
16
D5P/OP[8]
LVDS output
LVDS Data output 5 – Positive / CMOS output 10
17
D4N/OP[7]
LVDS output
LVDS Data output 4 – Negative / CMOS output 9
18
D4P/OP[6]
LVDS output
LVDS Data output 4 – Positive / CMOS output 8
19
DCLKN/OC[2]
LVDS output
LVDS Clock Output – Negative/ CMOS output 7
20
DCLKP/OC[1]
LVDS output
LVDS Clock Output – Positive/ CMOS output 6
21
DBGND
Supply
Analogue ground
22
DBVDD
Supply
Analogue supply
23
D3N/OP[5]
LVDS output
LVDS Data output 3 – Negative / CMOS output 5
24
D3P/OP[4]
LVDS output
LVDS Data output 3 – Positive / CMOS output 4
25
D2N/OP[3]
LVDS output
LVDS Data output 2 – Negative / CMOS output 3
26
D2P/OP[2]
LVDS output
LVDS Data output 2 – Positive / CMOS output 2
27
D1N/OP[1]
LVDS output
LVDS Data output 1 – Negative / CMOS output 1
28
D1P/OP[0]
LVDS output
LVDS Data output 1 – Positive / CMOS output 0
29
HZCTRL
Digital input
Internal use only. Must be connected to AGND.
30
MON
Analogue output
31
LDO1VOUT
Supply
Serial interface data output
This pin must be connected to AGND via a decoupling capacitor.
Clock monitor
LDO output.
This pin must be connected to AGND via a decoupling capacitor.
Supply
Analogue ground
LDO1VDD
Supply
Analogue supply
TGSYNC
Digital input
35
CLK1
Digital output
Sensor Timing Output 1
36
CLK2
Digital output
Sensor Timing Output 2
37
CLK3
Digital output
Sensor Timing Output 3
38
CLK4
Digital output
Sensor Timing Output 4
39
CLK5
Digital output
Sensor Timing Output 5
40
CLK6
Digital output
Sensor Timing Output 6
41
CLK7
Digital output
Sensor Timing Output 7
42
CLK8
Digital output
Sensor Timing Output 8
43
CLK9
Digital output
Sensor Timing Output 9
44
CLK10
Digital output
Sensor Timing Output 10
45
CLK11
Digital output
Sensor Timing Output 11
46
AGND3
Supply
47
NC
Not connect
32
LDO1GND
33
34
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Sensor Timing Sync pulse from host
Analogue ground
Not connected internally
Product Brief, Rev 3.0, February 2012
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WM8232
Product Brief
DESCRIPTION
PIN
NAME
Type
48
IN2
Analogue input
Analogue input 2
49
AGND2
Supply
Analogue ground
50
AVDD2
Supply
Analogue supply
51
NC
Not connect
52
INP4
Analogue input
53
NC
Not connect
54
INP6
Analogue input
Analogue input 6
55
AVDD1
Supply
Analogue supply
56
AGND1
Supply
Analogue ground
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Not connected internally
Analogue input 4
Not connected internally
Product Brief, Rev 3.0, February 2012
6
Product Brief
WM8232
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.
CONDITION
MIN
MAX
Analogue supply voltage: AVDD1-2, LDO1VDD-LDO2VDD,
DBVDD
GND - 0.3V
Analogue grounds: AGND1-3, LDO1GND-LDO2VDD, DBGND
GND - 0.3V
GND + 0.3V
Analogue inputs (IN1-6)
GND - 0.3V
AVDD + 0.3V
Other Analogue pins
GND - 0.3V
AVDD + 0.3V
Digital I/O pins
GND - 0.3V
AVDD + 0.3V
GND + 5V
-40C
Operating temperature range: TA
+85C
30C max / 85% RH max
Storage temperature prior to soldering
-65C
Storage temperature after soldering
+150C
Notes:
1.
2.
GND denotes the voltage of any ground pin.
AGND, LDOGND and DBGND pins are intended to be operated at the same potential. Differential voltages
between these pins will degrade performance.
RECOMMENDED OPERATING CONDITIONS
CONDITION
Operating temperature range
Analogue Supply voltage
SYMBOL
MIN
TA
-40
AVDD1-2
2.97
TYP
3.3
MAX
UNITS
85
C
3.63
V
LDO1VDDLDO2VDD
DBVDD
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Product Brief, Rev 3.0, February 2012
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WM8232
Product Brief
ELECTRICAL CHARACTERISTICS
Test Conditions
AVDD = LDOVDD = DBVDD = 3.3V , AGND = LDOGND = DBGND= 0V, TA = 25C, MCLK= 35MHz unless otherwise stated.
PARAMETER
SYMBOL
TEST
CONDITIONS
MIN
TYP
MAX
UNIT
35
MSPS
Overall System Specification (including 10-bit ADC, PGA, Offset and CDS functions)
Conversion rate per channel
5
Full-scale input voltage range
ADCFS=0, Max Gain
0.12
Vp-p
(see Note 1)
ADCFS=0, Min Gain
2.0
Vp-p
ADCFS=1, Max Gain
0.18
Vp-p
ADCFS=1, Min Gain
3.0
Vp-p
Input signal limits (see Note 2)
Input capacitance
VIN
CIN
Full-scale transition error
SF_INP=0
AGND-0.3
AVDD+0.3
SF_INP=1
AGND
AGND+1.2
V
V
Inputs to AGND
10
pF
Gain = 0dB;
AGAIN[4:0] = 02(hex)
20
mV
20
mV
DGAIN[11:0] = 6AB(hex)
Zero-scale transition error
Gain = 0dB;
AGAIN[4:0] = 02(hex)
DGAIN[11:0] = 6AB(hex)
Differential non-linearity
DNL
10-bit
0.5
LSB
Integral non-linearity (pk-pk/2)
INL
10-bit
1
LSB
Min Gain
5
%
Max Gain
15
%
0.3
LSB rms
+/-0.5
LSB
Channel to channel gain matching
Output noise
Unity Gain
(Unused channels grounded)
Channel to channel crosstalk
10-bit
Programmable Gain Amplifier
Total Resolution (Ga + Gd)
GT
12
bits
Analogue Gain
Ga
0.6 + 0.3 * AGAIN[4:0]
V/V
V/V
Max gain, each channel (Ga)
Ga MAX
AGAIN[4:0] = 1F(hex)
9.9
Min gain, each channel (Ga)
Ga MIN
AGAIN[4:0] = 0(hex)
0.6
Digital Gain
Gd
DGAIN[11:0] / 2
V/V
11
V/V
Max gain, each channel (Gd)
Gd MAX
DGAIN[11:0] = FFF(hex)
Min gain, each channel (Gd)
Gd MIN
DGAIN[11:0] = 400 (hex)
0.5
V/V
Max gain, each channel
GTMAX
AGAIN[4:0] = 1F(hex)
19.8
V/V
0.3
V/V
(Ga + Gd)
Min gain, each channel
(Ga + Gd)
2
V/V
DGAIN[11:0] = FFF(hex)
GTMIN
AGAIN[4:0] = 0(hex)
DGAIN[11:0] = 400 (hex)
Analogue to Digital Converter
Resolution
16
Speed
bits
70
MSPS
Notes:
1.
Full-scale input voltage denotes the differential input signal amplitude (VIN-VRLC in non-CDS mode, VIN-RESET
level in CDS mode) that can be gained to match the ADC full-scale input range.
2.
Input signal limits are the limits within which each input voltage and VRLC reference must lie.
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Product Brief, Rev 3.0, February 2012
8
Product Brief
WM8232
GENERAL CHARACTERISTICS
Test Conditions
AVDD = LDOVDD = DBVDD = 3.3V , AGND = LDOGND = DBGND= 0V, TA = 25C, MCLK= 35MHz unless otherwise stated.
PARAMETER
SYMBOL
TEST
CONDITIONS
MIN
TYP
MAX
UNIT
References
Upper reference voltage
Lower reference voltage
Input return bias voltage
Diff. Reference voltage (VREF1CVREF3C)
VREF1C
VREF3C
ADCFS=0
2.05
V
ADCFS=1
2.25
V
ADCFS=0
1.25
V
ADCFS=1
1.05
V
1.2
V
ADCFS=0
0.8
V
ADCFS=1
1.2
V
1

VREF2C
VREF1C3C
Output resistance VREF1C,
VREF3C, VREF2C
VRLC/Reset-Level Clamp (RLC)
RLC switching impedance
50

RLC short-circuit current
2
mA
RLC output resistance

2
RLC Hi-Z leakage current
VRLC = 0 to AVDD
1
RLCDAC resolution
A
5
bits
VRLC_TOP_SEL=0
0.09
V/step
VRLCSTEP
VRLC_TOP_SEL=1
0.048
V/step
VRLCBOT
VRLC_TOP_SEL=0,
0.2
V
0.11
V
3.0
V
1.6
V
VRLC DNL
+/- 0.5
LSB
VRLC INL
+/- 0.5
LSB
RLCDAC step size
RLCDAC output voltage at
code 0(hex)
VRLCSTEP
VRLC_VSEL[4:0]=00000
VRLCBOT
VRLC_TOP_SEL=1,
VRLC_VSEL[4:0]=00000
RLCDAC output voltage at
code 1F(hex)
VRLCTOP
VRLC_TOP_SEL=0,
VRLC_VSEL[4:0]=11111
VRLCTOP
VRLC_TOP_SEL=1,
VRLC_VSEL[4:0]=11111
Offset DAC, Monotonicity Guaranteed
Resolution
Differential non-linearity
DNL
Integral non-linearity
INL
Step size
Output voltage
8
bits
0.1
LSB
0.75
LSB
2.04
mV/step
Code 00(hex)
-250
mV
Code FF(hex)
+250
mV
DIGITAL SPECIFICATIONS
Digital Inputs
High level input voltage
VIH
Low level input voltage
VIL
High level input current
Low level input current
Input capacitance
CI
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0.7 
AVDD
V
0.2 
AVDD
V
IIH
1
A
IIL
1
A
5
pF
Product Brief, Rev 3.0, February 2012
9
WM8232
Product Brief
Test Conditions
AVDD = LDOVDD = DBVDD = 3.3V , AGND = LDOGND = DBGND= 0V, TA = 25C, MCLK= 35MHz unless otherwise stated.
PARAMETER
SYMBOL
TEST
CONDITIONS
MIN
High level output voltage
VOH
IOH = 6mA
AVDD
– 0.5
Low level output voltage
VOL
IOL = 1mA
High impedance output current
IOZ
TYP
MAX
UNIT
CMOS Outputs
V
0.5
V
1
A
TG Outputs
High level output voltage
VOHTG
Low level output voltage
VOLTG
IOL = 1mA
0.5
V
High impedance output current
IOZTG
Grounded
1
A
IOH = 1mA
AVDD
– 0.5
V
Digital IO Pins
0.7 
AVDD
Applied high level input voltage
VIH
Applied low level input voltage
VIL
High level output voltage
VOH
IOH = 1mA
Low level output voltage
VOL
IOL = 1mA
Low level input current
IIL
High level input current
IIH
Input capacitance
CI
Output Impedance
Ro
High impedance output current
IOZ
V
0.2 
AVDD
AVDD
– 0.5
V
0.5
V
1
A
1
A
5
Io = 1mA
V
pF
38
Ω
1
A
110
Ω
450
mV
15
mV
LVDS Outputs
Differential load impedance
Differential steady-state output
voltage magnitude
90
RL
|VOD|
RL=100Ω
Change in the steady-state
differential output voltage
magnitude between opposite
binary states
Δ|VOD|
RL=100Ω
Steady-state common-mode
output voltage
VOC(SS)
Peak-to-peak common-mode
output
VOC(PP)
100
280
RL=100Ω
1.25
20
V
50
mV
Short-circuit output current
IOS
–6
6
mA
High-impedance state output
current
IOZ
–10
10
uA
Supply Currents
Total supply current  active
Total supply current  full power
down mode
SF_INP=0, SF_VRLC=0
230
mA
SF_INP-1, SF_VRLC=1
250
m
1.0
m
Notes:
1.
Full-scale input voltage denotes the differential input signal amplitude (VIN-VRLC in non-CDS mode, VIN-RESET
level in CDS mode) that can be gained to match the ADC full-scale input range.
2.
Input signal limits are the limits within which each input voltage and VRLC reference must lie.
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Product Brief, Rev 3.0, February 2012
10
Product Brief
WM8232
APPLICATION INFORMATION
RECOMMENDED EXTERNAL COMPONENTS
AVDD1 AVDD2
DBVDD
LDO1VDD
LDO2VDD
AGND1
55
50
C1
22
C2
C3
33
9
C4
AGND2
AVDD1
AGND3
56
49
46
AVDD2
LDO1VDD
VREF1C 4
VREF2C 1
LDO2VDD
VREF3C 3
DBVDD
2
C11
C6
34
8
7
5
14
12
LDO2VOUT
31
AVDD1 AVDD2 DBVDDLDO1VDD LDO2VDD
11
C12
WM8232
48
IN1
52
IN2
54
IN3
13
LDO1VOUT
VRLC/VBIAS
AGND
Interface
Controls
C7
C10
AGND
AGND
Timing
Signals
C9
C8
C5
Video
Inputs
AGND
C13
C14
AGND
D1P/OP[0]
D1N/OP[1]
D2P/OP[2]
D2N/OP[3]
D3P/OP[4]
D3N/OP[5]
DCLKP/OC[1]
DCLKN/OP[2]
D4P/OP[6]
D4N/OP[7]
D5P/OP[8]
D5N/OP[9]
28
27
26
25
24
23
20
19
18
17
16
15
C15
C16
C17
C18
AGND
LDO1VOUT
Output
Data
Bus
C19
LDO2VOUT
C20
MCLK
TGSYNC
SDI
SCK
SEN
DSLCT1
DSLCT2
CLK1
CLK2
CLK3
CLK4
CLK5
CLK6
CLK7
CLK8
CLK9
CLK10
CLK11
35
36
37
38
39
40
41
42
43
44
45
AGND
Timing generator
Outputs
NOTES: 1. C1-20 should be fitted as close to device as possible.
2. AGND should be connected as close to device as possible.
Figure 1 External Components Diagram
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Product Brief, Rev 3.0, February 2012
11
WM8232
Product Brief
RECOMMENDED EXTERNAL COMPONENT VALUES
COMPONENT
REFERENCE
SUGGESTED
VALUE
DESCRIPTION
C1
0.1uF
C2
0.1uF
De-coupling for AVDD2
C3
0.1uF
De-coupling for DBVDD
C4
0.1uF
De-coupling for LDO1VDD
C5
0.1uF
De-coupling for LDO2VDD
C6
0.1uF
De-coupling for VREF1C
C7
0.1uF
De-coupling for VREF2C
C8
0.1uF
De-coupling for VREF3C
C9
0.01uF
High frequency decoupling between VREF1C and VREF3C
C10
10uF
Low frequency decoupling between VREF1C and VREF3C
C11
1uF
De-coupling for VRLC/VBIAS
De-coupling for AVDD1
C12
1uF
De-coupling for LDO1VOUT
C13
1uF
De-coupling for LDO2VOUT
C14
10uF
Reservoir capacitor for AVDD1
C15
10uF
Reservoir capacitor for AVDD2
C16
10uF
Reservoir capacitor for DBVDD
C17
10uF
Reservoir capacitor for LDO1VDD
C18
10uF
Reservoir capacitor for LDO2VDD
C19
10uF
Reservoir capacitor for LDOOUT
C20
10uF
Reservoir capacitor for LDOOUT
Table 1 External Components Description
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Product Brief, Rev 3.0, February 2012
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Product Brief
WM8232
PACKAGE DIMENSIONS
DM091.B
FL: 56 PIN QFN PLASTIC PACKAGE 8 X 8 X 0.85 mm BODY, 0.50 mm LEAD PITCH
D2
eee C B A
PIN 1
A
D2/2
D
B
56
43
L
36
INDEX AREA
(D/2 X E/2)
1
EXPOSED
6
GND
PADDLE
E2/2
E2
eee C B A
29
14
28
b
e
TOP VIEW
bbb C
A2
A
ccc C
M
Symbols
aaa
bbb
ccc
ddd
eee
REF
aaa C
2X
A1
SEATING PLANE
M
A
A1
A2
A3
b
D
D2
E
E2
e
L
aaa C
2X
15
ddd M C A B
(A3)
C
E
MIN
0.8
0
0.20
5.95
5.95
0.35
Dimensions (mm)
NOM
MAX
0.85
0.9
0.05
0.035
0.65
0.67
0.203 REF
0.25
0.30
8.00 BSC
6.05
6.15
8.00 BSC
6.05
6.15
0.5 BSC
0.45
0.4
NOTE
1
Tolerances of Form and Position
0.10
0.10
0.08
0.10
0.10
JEDEC, MO-220, VARIATION VLLD-2
NOTES:
1. DIMENSION b APPLIED TO METALLIZED TERMINAL AND IS MEASURED BETWEEN 0.15 mm AND 0.30 mm FROM TERMINAL TIP.
2. ALL DIMENSIONS ARE IN MILLIMETRES
3. THE TERMINAL #1 IDENTIFIER AND TERMINAL NUMBERING CONVENTION SHALL CONFORM TO JESD 95-1 SPP-002.
4. COPLANARITY APPLIES TO THE EXPOSED HEAT SINK SLUG AS WELL AS THE TERMINALS.
5. THIS DRAWING IS SUBJECT TO CHANGE WITHOUT NOTICE.
6. REFER TO APPLICATIONS NOTE WAN_0118 FOR FURTHER INFORMATION.
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Product Brief, Rev 3.0, February 2012
13
WM8232
Product Brief
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
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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
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reliance placed thereon by any person.
ADDRESS:
Wolfson Microelectronics plc
Westfield House
26 Westfield Road
Edinburgh
EH11 2QB
Tel :: +44 (0)131 272 7000
Fax :: +44 (0)131 272 7001
Email :: [email protected]
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Product Brief, Rev 3.0, February 2012
14
Product Brief
WM8232
REVISION HISTORY
REV
ORIGINATOR
16/11/10
DATE
1.0
NB
CHANGES
First Release
09/02/12
3.0
JMacD
Current consumption updated to 230mA
DAC description updated from 4-bit to 8-bit
Temperature range updated to -40
Updated ADCFS characteristics
Updated RLC DAC resolution
Updated parameter name and register name for RLC DAC
Added test condition for TG output
Updated Supply currents
29/02/12
3.0
JMacD
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Recommended External Component Values – C9 value updated to 0.01uF
Product Brief, Rev 3.0, February 2012
15