CDB4207 - Cirrus Logic

CDB4207
CS4207 HD Audio CODEC Development Platform
Features
Description
 Demonstrates Recommended Layout and
The CDB4207 is a flexible development platform designed for easy evaluation of the CS4207 HD Audio
CODEC. Evaluation requires a PC with an HD Audio
Bus connector and an analog or digital audio signal
source for recording. Analog I/O is provided via 1/8” or
1/4” jacks. S/PDIF I/O is provided via optical connectors. Two identical HD Audio Bus headers are provided
for connection to a PC.
Grounding Arrangements
 Analog I/O Use Standard 1/8” (3.5 mm) or 1/4”
(6.35 mm) Jacks With Presence Detection
 Analog Inputs (Passive)
–
–
Single-ended and Differential MIC Inputs
Single-ended Stereo Line-level Input
 Analog Outputs (Passive)
– Stereo Headphone Output with Test Loads
– Single-ended and Differential Line Outputs
 Digital I/O
– Optical S/PDIF I/O Jacks
– Digital MIC Input Headers
– HD Audio Bus Headers
– CS4207 GPIO Header
 Powered by HDA Bus Connection to PC
– Optionally Powered by Bench Supply or PC
Peripheral Power Supply Cable (Molex)
 Configured by Hardware Jumpers
– Power Supply Sources, Analog I/O Settings
 Current Sense Resistors for CS4207 Supplies
PC Peripheral
Power
External Bench
Supplies
The CDB4207 is configured via hardware jumper settings to set up the analog I/O circuitry and select a
source for each CS4207 power supply rail. The analog
inputs and outputs support several signal types for compatibility with a variety of signal sources and analyzers.
The CS4207 can be powered from the HD Audio Bus
header, a PC peripheral power supply cable, or external
power supplies. Current sense resistors are included for
easy power calculations during system development.
ORDERING INFORMATION
CDB4207
HD Audio Bus
Headers
CS4207 GPIO
Header
Regulators
Evaluation Board
Lineout 1
Stereo
Jumper
Select
MICIN Mono
CS4207
Supplies
*
Lineout 1
Balanced Left
Lineout 1
Balanced Right
MICIN Stereo
*
MICIN Balanced
Left
MICIN Balanced
Right
Current Sense
Resistors
Lineout 2
Stereo
Jumper
Select
Jumper
Select
CS4207
*
Lineout 2
Balanced Left
Lineout 2
Balanced Right
Line In Stereo
*
Headphone
Output
Optical
S/PDIF In
Optical
S/PDIF Out 1
Digital Mic
Headers
* these connectors have presence detection
http://www.cirrus.com
*
Copyright  Cirrus Logic, Inc. 2009
(All Rights Reserved)
Optical
S/PDIF Out 2
NOV '09
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CDB4207
TABLE OF CONTENTS
1. HARDWARE SYSTEM OVERVIEW ....................................................................................................... 3
1.1 CS4207 ............................................................................................................................................ 3
1.2 Analog Inputs ................................................................................................................................... 3
1.3 Analog Outputs ................................................................................................................................ 3
1.4 Digital Microphone Inputs ................................................................................................................ 4
1.5 S/PDIF I/O ........................................................................................................................................ 4
1.6 GPIO Header ................................................................................................................................... 4
1.7 HD Audio Bus Headers .................................................................................................................... 4
1.8 Power Supply Circuitry ..................................................................................................................... 5
1.9 Grounding and Power Supply Decoupling ....................................................................................... 5
2. QUICK-START GUIDE ........................................................................................................................... 6
3. SYSTEM CONNECTIONS AND JUMPER SETTINGS .......................................................................... 7
4. CDB4207 SCHEMATICS AND LAYOUT ............................................................................................ 11
5. ORDERING INFORMATION ................................................................................................................ 21
6. REVISION HISTORY ............................................................................................................................ 21
LIST OF FIGURES
Figure 1.CDB4207 Quick-Start Guide ......................................................................................................... 6
Figure 2.CS4207 ....................................................................................................................................... 11
Figure 3.Analog Inputs .............................................................................................................................. 12
Figure 4.Analog Outputs ........................................................................................................................... 13
Figure 5.Digital I/O .................................................................................................................................... 14
Figure 6.Power .......................................................................................................................................... 15
Figure 7.CDB4207 Component Map ......................................................................................................... 16
Figure 8.CDB4207 Top Layer ................................................................................................................... 17
Figure 9.CDB4207 Inner Layer 1 - Ground ............................................................................................... 18
Figure 10.CDB4207 Inner Layer 2 - Power ............................................................................................... 19
Figure 11.CDB4207 Bottom Layer ............................................................................................................ 20
LIST OF TABLES
Table 1. CDB4207 HD Audio Bus Header Pinout (J1 and J9) .................................................................... 5
Table 2. System Connections ..................................................................................................................... 7
Table 3. Jumper Settings ............................................................................................................................ 8
Table 4. Power Supply Indicator LEDs ..................................................................................................... 10
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CDB4207
1. HARDWARE SYSTEM OVERVIEW
The CDB4207 allows for easy and complete evaluation of the CS4207 HD Audio CODEC. Use of the CDB4207 requires only a PC with an available HD Audio Bus header. If desired the CDB4207 can be powered solely from the
connected PC. The CDB4207 supports microphone and line-level analog input signals, line-level and headphone
analog output signals, digital microphone input signals, and optical S/PDIF input and output signals.
1.1
CS4207
A description of the CS4207 HD Audio CODEC is included in the CS4207 datasheet. See Figure 2 on page
11 for the CS4207 circuit schematic.
1.2
Analog Inputs
The analog input circuitry on the CDB4207 allows for all possible input configurations of the CS4207 to be
tested. Microphone and line-level inputs are connected to the CS4207 using standard 1/8” (3.5 mm) or 1/4”
(6.35 mm) jacks. All input configurations are passive and use the recommended DC-blocking capacitors
and anti-aliasing filter capacitors.
The CDB4207 supports the following microphone input types: stereo fully-differential signals (J50 and J56),
stereo single-ended/pseudo-differential signals (J42), and mono single-ended/pseudo-differential signals
with phantom power (J28, into left channel of CS4207). Jumpers J46 and J52 connect the inverting microphone input pins of the CS4207 to either the negative signals of the differential input jacks or ground (for
single-ended/pseudo-differential input types). Jumpers J33 and J37 configure the microphone input antialiasing capacitor for common-mode or differential filtering. Optionally, an external load may be applied to
the MICBIAS pin of the CS4207 using J27. Current sensing for the MICBIAS supply is accomplished by unshunting J36 and measuring the voltage across R33. The CDB4207 supports stereo single-ended/pseudodifferential line-level input signals (J68).
The sleeve connection of the MIC and line input jacks is used for their respective signal’s return path. The
sleeve should thus be connected to the negative inputs of the CS4207’s MIC and/or line input pins when
configured in pseudo-differential mode. J43 and J60 are provided to connect the sleeve to board ground.
The jumpers should be shunted when the MIC and/or line input source is floating and must use the board
ground for its ground reference. To avoid ground loop issues, the jumpers should not be shunted if the MIC
and/or line input source has its own external ground reference.
The microphone input jack presence detect signal is triggered by inserting a plug into either J42 or J28 or
shunting J40. The line-level input jack presence detect signal is triggered by inserting a plug into J68 or
shunting J61.
See Figure 3 on page 12 for the analog input circuit schematic and Section 3 on page 7 for the analog input
connections and jumper selections. There is no on-board signal attenuation; see CS4207 datasheet for fullscale input amplitudes.
1.3
Analog Outputs
The analog output circuitry on the CDB4207 allows for full evaluation of the CS4207’s analog outputs. Headphone and line-level outputs are connected to the CS4207 using standard 1/8” (3.5 mm) or 1/4” (6.35 mm)
jacks. All output paths are passive. The headphone outputs use the recommended anti-peaking filters. The
line-level outputs use the recommended DC-blocking capacitors (single-ended only) and low pass filters.
The headphone outputs are stereo single-ended/pseudo-differential signals available at J48. Optionally, a
test load of 32 Ω or 16 Ω can be connected to each channel by using J47. The line-level outputs can be
configured as stereo single-ended or fully-differential signals. For lineout 1, the single-ended or full-differential output option is selected using J59 and J51. The stereo single-ended output is available at J70. The
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CDB4207
stereo full-differential outputs are available at J66 and J53. For lineout 2, the single-ended or full-differential
output option is selected using J54 and J55. The stereo single-ended output is available at J69. The stereo
full-differential outputs are available at J64 and J65.
The headphone output jack presence detect signal is triggered by inserting a plug into J48 or shunting J49.
The lineout 1 jack presence detect signal is triggered by inserting a plug into J70 or shunting J67. Since the
CS4207 can only support four jack detect signals on the SENSE_A pin (MIC input, line input, headphone
output, and lineout 1), the lineout 2 jack presence detect signal uses the CS4207’s GPIO pins. The detect
signal can be connected to GPIO2 or GPIO3 using J35. The signal is triggered by inserting a plug into J69.
See Figure 4 on page 13 for the analog output circuit schematic and Section 3 on page 7 for the analog
output connections and jumper selections. There is no on-board signal attenuation; see CS4207 datasheet
for full-scale output amplitudes.
1.4
Digital Microphone Inputs
The two stereo digital microphone inputs use 4-pin headers for connection to the CS4207. Digital MIC 1
uses headers J29 and J30 while digital MIC 2 uses headers J31 and J32. Pin 1 of each header is connected
to DMIC_SCL, the digital microphone clock signal from the CS4207. Pin 2 of each header is the data input
signal to the CS4207. The data signals are multiplexed for each header pair (J29/J30 and J31/J32) to support stereo signals. Pin 3 of each header is fixed to a 3.3 V supply from an on-board regulator. Pin 4 of each
header is fixed to ground.
See Figure 5 on page 14 for the digital microphone circuit schematic and Section 3 on page 7 for the digital
microphone connections.
1.5
S/PDIF I/O
All S/PDIF I/O signals on the CDB4207 use optical connectors. The S/PDIF input signal to the CS4207 is
supplied at J39. The S/PDIF output 1 signal from the CS4207 is available at J26. The S/PDIF output 2 signal
from the CS4207 is available at J71. Since the S/PDIF output 2 signal from the CS4207 uses a multi-purpose pin, it can be disconnected from J71 by unshunting J16.
See Figure 5 on page 14 for the S/PDIF I/O circuit schematic and Section 3 on page 7 for the S/PDIF I/O
connections and jumper selections.
1.6
GPIO Header
The CS4207’s four GPIO pins are available at header J34. The GPIO signals are located in the middle column of the header. A 10 kΩ pull-down or pull-up resistor can be applied to each GPIO signal by shunting
the middle column to column 1 or 3, respectively.
See Figure 5 on page 14 for the GPIO header circuit schematic and Section 3 on page 7 for the GPIO header connections and jumper selections.
1.7
HD Audio Bus Headers
The CDB4207 has duplicate HD Audio Bus headers for connection to a PC (J1 and J9). These headers allow for easy daisy chaining between CDB4207s for systems with multiple HD Audio CODECs. See Table 1
for header pinout. The headers are keyed for a standard 16-pin ribbon cable. The header cable should only
be connected or disconnected while the PC power is turned off. An alternate HD Audio Bus header for the
digital I/O signals only is available at J20. The CS4207 will be connected to the serial digital input (SDI) line
of the HD Audio Controller selected by header J21. See Figure 5 on page 14 for the HD Audio Bus header
circuit schematic and Section 3 on page 7 for the HD Audio Bus header connections and jumper selections.
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Table 1. CDB4207 HD Audio Bus Header Pinout (J1 and J9)
1.8
Pin
Signal
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
BCLK
GND
RST#
DVDD_IO (to J12 VL_HD header)
SYNC
GND
SDO
3.3V_DVDD_CORE (to J13 VL_IF header)
SDI0
+12V
SDI1
Key (no connection)
SDI2
3.3V_DUAL (to D12 indicator LED)
SDI3
GND
Power Supply Circuitry
The CDB4207 has several options for powering the CS4207 and auxiliary circuits. The main board power
supply can be used to power the entire board through on-board regulators. The main board power supply
can be provided by pin 10 of the HD Audio Bus header J1/J9, the PC peripheral power supply connector
J14, or an external bench supply using J8 and J7. The three options are separated via Schottky diodes, thus
the applied source with the largest voltage will be used. To use only this single power source, the CS4207
supply source selection headers (J10, J11, J12, J13, and J15) should be shunted in the ‘REG’ positions.
Alternatively each CS4207 supply can be sourced directly from external bench supplies via banana jacks
by shunting the ‘EXT’ position. In this case the main board power supply is still required to regulate a +3.3 V
supply for the S/PDIF optical jacks, the digital microphone power, and the GPIO pull-up resistors.
For the VL_HD supply ‘REG’ setting, J19 selects whether the supply is +3.3 V (unshunted) or +1.5 V (shunted). For the VD supply ‘REG’ setting, J18 selects whether the supply is +1.8 V (unshunted) or +1.5 V (shunted). For the VA supply ‘REG’ setting, J17 selects whether the supply is +5 V (unshunted), +4.7 V (1-2
shunted), +3.3 V (3-4 shunted), or +3.1V (5-6 shunted). In addition to the regulator and external options, the
CS4207’s VL_IF and VL_HD supplies can be powered directly from 3.3V_DVDD_CORE and DVDD_IO on
J1/J9 (‘HDA’), respectively, and the VA_HP supply can be powered directly from 3.3V_DVDD_CORE on
J1/J9 (‘3.3 V HDA’) or +5 V on J14 (‘5.0 V HDD’).
Note that the VL_HD supply voltage must match the chipset voltage used by the connected PC. This condition is guaranteed when the ‘HDA’ setting on J12 is selected instead of ‘REG’ or ‘EXT’.
There are nine power supply indicator LEDs on the CDB4207. Each LED will be lit whenever the associated
supply is turned on. See Figure 6 on page 15 for the power supply circuit schematic and Section 3 on page
7 for the power supply connections, jumper selections, and indicator LEDs.
1.9
Grounding and Power Supply Decoupling
As with any high-performance converter, the CS4207 requires careful attention to power supply and grounding arrangements to optimize performance. Figure 2 details the connections to the CS4207 and Figures 7,
8, 9, 10, and 11 show the component placement and the board layout. The decoupling capacitors are located as close as possible to the CS4207.
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CDB4207
2. QUICK-START GUIDE
The following figure is a quick-start guide made for user convenience. The guide configures the board to be powered
solely from the HD Audio Bus header. The user may choose to ignore steps 3, 4, or 6 through 9 depending on the
desired I/O measurements required. See Table 3 for board jumper settings and their factory default settings.
6
5
1
2
4
Power Up PC
Power Supply Jumpers Set to
Power From HD Audio Header
(Default Factory Settings)
Select SDI Pin and
Connect HD Audio
Cable to PC
Configure Lineout2
Presence Detect
GPIO Pin and S/PDIF
Out 2 Jumper
Monitor S/PDIF
Output(s)
9
Provide S/PDIF
Input and/or
Digital
Microphone(s)
8
Provide
Analog
Input(s)
Configure Analog
I/O Jumpers
Monitor Analog
Output(s)
3
7
Figure 1. CDB4207 Quick-Start Guide
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3. SYSTEM CONNECTIONS AND JUMPER SETTINGS
Table 2 below serves as a quick reference to all user interface elements, Table 3 outlines the various jumper settings on the board, and Table 4 lists the indicator LEDs.
Table 2. System Connections
Reference
Designator
Silkscreen Label
Input /
Output
J50
MICIN_L (DIFF)
Input
1/4” jack, stereo differential microphone input, left channel
J56
MICIN_R (DIFF)
Input
1/4” jack, stereo differential microphone input, right channel
J42
MICIN (STEREO)
Input
1/8” jack, stereo single-ended microphone input with jack sense
J28
MICIN
(MONO/POWER)
Input
1/8” jack, mono single-ended microphone input with phantom power,
jack sense, and optional test load
J68
LINEIN (STEREO)
Input
1/8” jack, stereo single-ended line-level input with jack sense
Description
J48
HPOUT
Output
1/8” jack, stereo single-ended headphone output with jack sense
J70
LINEOUT_1 (STEREO)
Output
1/8” jack, stereo single-ended line-level output with jack sense
J66
LINEOUT_L1 (DIFF)
Output
1/4” jack, stereo differential line-level output, left channel
J53
LINEOUT_R1 (DIFF)
Output
1/4” jack, stereo differential line-level output, right channel
J69
LINEOUT_2 (STEREO)
Output
1/8” jack, stereo single-ended line-level output with jack sense
J64
LINEOUT_L2 (DIFF)
Output
1/4” jack, stereo differential line-level output, left channel
J65
LINEOUT_R2 (DIFF)
Output
1/4” jack, stereo differential line-level output, right channel
J1
HD AUDIO
I/O
Connection to HD audio header on PC
J9
HD AUDIO
I/O
Duplicate of J1 (used for daisy chaining)
J20
HD AUDIO
I/O
HD audio bus digital I/O signal header
J34
GPIO VIS/TEST
I/O
GPIO visibility header with pull-up and pull-down resistors
J29
DMIC 1A
I/O
Header for digital microphone, shares data input with J30
J30
DMIC 1B
I/O
Header for digital microphone, shares data input with J29
J31
DMIC 2A
I/O
Header for digital microphone, shares data input with J32
J32
DMIC 2B
I/O
Header for digital microphone, shares data input with J31
J39
S/PDIF IN
Input
Optical connection for S/PDIF input signal
J26
S/PDIF OUT 1
Output
Optical connection for S/PDIF output 1 signal
J71
S/PDIF OUT 2
Output
Optical connection for S/PDIF output 2 signal
J14
PC HDD PWR
Input
Connector to power board from PC peripheral power supply cable
J8
+6...12V
Input
Banana jack to power board from bench power supply
J7
GND
Input
Banana jack for board power supply ground connection
J5
VL_IF (3.3V)
Input
Banana jack for CS4207 VL_IF supply
J4
VL_HD (3.3/1.5V)
Input
Banana jack for CS4207 VL_HD supply
J3
VD (1.8/1.5V)
Input
Banana jack for CS4207 VD supply
J2
VA (5.0...3.1V)
Input
Banana jack for CS4207 VA supply
J6
VA_HP (5.0...3.3V)
Input
Banana jack for CS4207 VA_HP supply
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CDB4207
Table 3. Jumper Settings (Sheet 1 of 2)
Reference
Designator Silkscreen Label
8
Position
Function Selected
J25
I(VA_HP)
*shunted
unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J24
I(VL_IF)
shunted
*unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J23
I(VL_HD)
shunted
*unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J22
I(VD)
shunted
*unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J44
I(VA)
*shunted
unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J72
I(VA_REF)
*shunted
unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J46
MICIN_L PSD/DIFF
1-2
*2-3
Differential - connects MICIN_L negative signal to CS4207
Pseudo-differential - connects MICIN jack ground to CS4207
J52
MICIN_R PSD/DIFF
1-2
*2-3
Differential - connects MICIN_R negative signal to CS4207
Pseudo-differential - connects MICIN jack ground to CS4207
J33
MICIN_L SE/DIFF
*shunted
unshunted
Single-ended - MICIN_L filter common mode
Differential - MICIN_L filter differential mode
J37
MICIN_R SE/DIFF
*shunted
unshunted
Single-ended - MICIN_R filter common mode
Differential - MICIN_R filter differential mode
J43
MICIN PSD GND
*shunted
unshunted
MICIN jack ground shorted to board ground
MICIN jack ground floating
J27
MICBIAS EXT
LOAD
*open
load resistor pin 1-2
No external load on MICBIAS pin
External load added to MICBIAS pin
J36
MICBIAS CURRENT
shunted
*unshunted
When shunt is removed, the voltage can be measured across a
fixed resistance to determine current.
J60
LINEIN PSD GND
*shunted
unshunted
LINEIN jack ground shorted to board ground
LINEIN jack ground floating
J45
HPREF GND
*shunted
unshunted
HPREF shorted to board ground
HPREF floating
J59
LOUT_L1 SE/DIFF
1-2
*2-3
Differential - LOUT_L1+ connected to J66
Single-ended - LOUT_L1+ connected to J70
J51
LOUT_R1 SE/DIFF
1-2
*2-3
Differential - LOUT_R1+ connected to J53
Single-ended - LOUT_R1+ connected to J70
J54
LOUT_L2 SE/DIFF
1-2
*2-3
Differential - LOUT_L2+ connected to J64
Single-ended - LOUT_L2+ connected to J69
J55
LOUT_R2 SE/DIFF
1-2
*2-3
Differential - LOUT_R2+ connected to J65
Single-ended - LOUT_R2+ connected to J69
J21
SDI SELECT
*1-2
3-4
5-6
7-8
CS4207 SDI connects to SDI0 on J1 and J9
CS4207 SDI connects to SDI1 on J1 and J9
CS4207 SDI connects to SDI2 on J1 and J9
CS4207 SDI connects to SDI3 on J1 and J9
J67
LOUT_1 SENSE
shunted
*unshunted
LINEOUT 1 jack presence detection override
LINEOUT 1 jack presence detection normal
J61
LINEIN SENSE
shunted
*unshunted
LINEIN jack presence detection override
LINEIN jack presence detection normal
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CDB4207
Table 3. Jumper Settings (Sheet 2 of 2)
Reference
Designator Silkscreen Label
Position
Function Selected
J40
MICIN SENSE
shunted
*unshunted
MICIN jack presence detection override
MICIN jack presence detection normal
J49
HPOUT SENSE
shunted
*unshunted
HPOUT jack presence detection override
HPOUT jack presence detection normal
J35
LOUT_2 SENSE
*unshunted
1-2
3-4
LINEOUT 2 jack presence detection signal unused
LINEOUT 2 jack presence detection connected to GPIO2
LINEOUT 2 jack presence detection connected to GPIO3
J47
HPOUT TSTLD
*unshunted
1-3, 2-4
3-5, 4-6
no load on HPOUT_L and HPOUT_R
16 Ω load on HPOUT_L and HPOUT_R
32 Ω load on HPOUT_L and HPOUT_R
J16
SPDO2
*shunted
unshunted
GPIO1/DMIC_SDA2/SPDIF_OUT2 connected to J71
GPIO1/DMIC_SDA2/SPDIF_OUT2 disconnected from J71
J13
VL_IF
1-2
*3-4
5-6
VL_IF = 3.3 V from on-board regulator
VL_IF = 3.3 V from pin 8 of J1 or J9
VL_IF = J5 external voltage supply
J12
VL_HD
1-2
*3-4
5-6
VL_HD = 3.3 V or 1.5 V from on-board regulator (see J19)
VL_HD = 3.3 V from pin 4 of J1 or J9
VL_HD = J4 external voltage supply
J19
VL_HD |3.3| [1.5]
shunted
*unshunted
VL_HD regulator output = 1.5 V
VL_HD regulator output = 3.3 V
J11
VD
*1-2
2-3
VD = 1.8 V or 1.5 V from on-board regulator (see J18)
VD = J3 external voltage supply
J18
VD |1.8| [1.5]
shunted
*unshunted
VD regulator output = 1.5 V
VD regulator output = 1.8 V
J10
VA
*1-2
2-3
VA = on-board regulator (see J17)
VA = J2 external voltage supply
J17
VA
no shunt
1-2
*3-4
5-6
VA regulator output = 5.0 V
VA regulator output = 4.7 V
VA regulator output = 3.3 V
VA regulator output = 3.1 V
J15
VA_HP
1-2
*3-4
5-6
7-8
9-10
VA_HP = 5.0 V from on-board regulator
VA_HP = 3.3 V from on-board regulator
VA_HP = 5.0 V from pin 4 of J14
VA_HP = 3.3 V from pin 8 of J1 or J9
VA_HP = J6 external voltage supply
Note:
All settings denoted by an asterisk (*) are the Default Factory Settings.
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CDB4207
Table 4. Power Supply Indicator LEDs
Reference
Designator Silkscreen Label
D1
10
VA
Description
CS4207 VA supply is powered on when LED is lit
D2
VD
CS4207 VD supply is powered on when LED is lit
D3
VL_HD
CS4207 VL_HD supply is powered on when LED is lit
D4
VL_IF
CS4207 VL_IF supply is powered on when LED is lit
D5
VA_HP
CS4207 VA_HP supply is powered on when LED is lit
D6
+3.3V REG
+5V to +3.3V regulator output supply is powered on when LED is lit
D7
+5V REG
+12V to +5V regulator output supply is powered on when LED is lit
D11
+12V
+12V supply from J8, J14, J1 or J9 is powered on when LED is lit
D12
+3.3V HDA
+3.3V supply from J1 or J9 is powered on when LED is lit
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4. CDB4207 SCHEMATICS AND LAYOUT
Figure 2. CS4207
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CDB4207
Figure 3. Analog Inputs
12
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Figure 4. Analog Outputs
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Figure 5. Digital I/O
14
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Figure 6. Power
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Figure 7. CDB4207 Component Map
16
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Figure 8. CDB4207 Top Layer
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Figure 9. CDB4207 Inner Layer 1 - Ground
18
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Figure 10. CDB4207 Inner Layer 2 - Power
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CDB4207
Figure 11. CDB4207 Bottom Layer
20
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5. ORDERING INFORMATION
Product
Description
Included Hardware
Order #
CDB4207
CS4207
Evaluation Board
1 x CDB4207
1 x 16-pin HD Audio cable
CDB4207
6. REVISION HISTORY
Release
Date
DB1
NOV 2009
DS880DB1
Changes
Initial Release
21
CDB4207
Contacting Cirrus Logic Support
For all product questions and inquiries, contact a Cirrus Logic Sales Representative.
To find the one nearest you, go to www.cirrus.com.
IMPORTANT NOTICE
Cirrus Logic, Inc. and its subsidiaries (“Cirrus”) believe that the information contained in this document is accurate and reliable. However, the information is subject
to change without notice and is provided “AS IS” without warranty of any kind (express or implied). Customers are advised to obtain the latest version of relevant
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supplied at the time of order acknowledgment, including those pertaining to warranty, indemnification, and limitation of liability. No responsibility is assumed by Cirrus
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copyrights, trademarks, trade secrets or other intellectual property rights. Cirrus owns the copyrights associated with the information contained herein and gives consent for copies to be made of the information only for use within your organization with respect to Cirrus integrated circuits or other products of Cirrus. This consent
does not extend to other copying such as copying for general distribution, advertising or promotional purposes, or for creating any work for resale.
CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OF DEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICAL APPLICATIONS”). CIRRUS PRODUCTS ARE NOT DESIGNED, AUTHORIZED OR WARRANTED FOR USE
IN PRODUCTS SURGICALLY IMPLANTED INTO THE BODY, AUTOMOTIVE SAFETY OR SECURITY DEVICES, LIFE SUPPORT PRODUCTS OR OTHER CRITICAL APPLICATIONS. INCLUSION OF CIRRUS PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TO BE FULLY AT THE CUSTOMER’S RISK AND CIRRUS DISCLAIMS AND MAKES NO WARRANTY, EXPRESS, STATUTORY OR IMPLIED, INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
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Cirrus Logic, Cirrus, and the Cirrus Logic logo designs are trademarks of Cirrus Logic, Inc. All other brand and product names in this document may be trademarks
or service marks of their respective owners.
22
DS880DB1