xCORE-200 Multichannel Audio Platform 2v0 (MFi

xCORE-200 Multichannel Audio Platform 2v0 (MFi

xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware
Manual
IN THIS DOCUMENT
· XK-AUDIO-216-MC-ABL Features
· xCORE Multicore Microcontroller Device
· Analog input audio channels
· Analog output audio channels
· Digital audio output
· Digital audio input
· MIDI audio input and output
· Audio clocking
· USB Connectivity
· Ethernet Connectivity
· General purpose user interface
· I2C bus address map
· xSYS Debug
· QSPI Flash
· Operating requirements
· Dimensions
· xCORE-200 Multichannel Audio (MFi) Platform Portmap
· xCORE-200 Multichannel Audio (MFi) Platform schematics
· RoHS and REACH
· Version history
The xCORE-200 Multichannel Audio (MFi) Platform (XK-AUDIO-216-MC-ABL) is a
complete hardware and reference software platform targeted at up to 32-channel
USB and networked audio applications, such as DJ decks and mixers.
The Multichannel Audio Platform hardware is based around the XE216-512-TQ128
multicore microcontroller; an xCORE-200 device with an integrated High Speed
USB 2.0 PHY, RGMII (Gigabit Ethernet) interface and 16 logical cores delivering up
to 2000MIPS of deterministic and responsive processing power.
Exploiting the flexible programmability of the xCORE-200 architecture, the Multichannel Audio Platform supports either USB or network audio source, streaming
8 input and 8 output audio channels simultaneously - at up to 192kHz. Ideal for
mixing two sources and providing main and headphone monitor output feeds.
Publication Date: 2015/8/11
XMOS © 2015, All Rights Reserved
Document Number: XM009539C
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
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The guaranteed Hardware-Response™ times of xCORE technology always ensure
lowest latency (round trip as low as 3ms), bit perfect audio streaming to and from
the USB host or network.
Delivered as source code, the reference software provides a fully featured production ready solution, including support for:
· Full-Speed and High-Speed USB operation, Audio Class 2.0 & 1.0, MIDI, HID and
DFU classes.
· Standards compliant AVB Talker and/or Listener endpoints
· MFi support for Apple Host Mode and USB Role Switch
1
XK-AUDIO-216-MC-ABL Features
A block diagram of the xCORE-200 Multichannel Audio Platform is shown below:
K
J
K
R
C
E
P
L
C
A
O N N N
S
Figure 1:
XK-AUDIO216-MC-ABL
block
diagram
M
T
B
Q
D
B
H
H
G
G
F
F
It includes the following features:
· A: xCORE-200 (XE216-512-TQ128) Multicore Microcontroller device
· B: 8 output analog audio channels (3.5mm stereo jack)
· C: 8 input analog audio channels (3.5mm stereo jack)
· D: 192kHz 24b audio DAC
· E: 192kHz 24b audio ADC
· F: Optical connections for digital interface (e.g. S/PDIF and ADAT)
XM009539C
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
· G: Coaxial connections for digital interfaces (e.g. S/PDIF)
· H: MIDI in and out connections
· I: An ultra low-jitter programmable audio phase lock loop
· J: A lightning device connection
· K: USB 2.0 type A and micro-B jacks
· L: 10/100/1000 Mbps Ethernet connection
· M: 16 general purpose LEDs
· N: 3 general purpose buttons
· O: 1 general purpose 2-way switch
· P: Selectable TDM input audio sources
· Q: Selectable TDM output audio sources
· R: Integrated power supply unit
· S: Quad-SPI boot ROM
· T: 24MHz Oscillator
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xCORE Multicore Microcontroller Device
xCORE-200 Multichannel Audio Platform (XK-AUDIO-216-MC-ABL) is based on a
two-tile xCORE-200 device (XE216-512-TQ128). Each tile is user-programmable,
providing eight logical cores with a total of up to 1000 MIPS compute. A total of
53 general-purpose digital I/O have been brought out to header pins, providing
tremendous flexibility for a wide range of USB and networked audio products to be
developed on a common platform.
For information on xCORE-200 tiles and cores see the xCORE-200 Architecture
Overview1 .
I/O pins
xTIME
scheduler
Hardware response ports
I/O pins
Hardware response ports
xCORE logical core
xCORE logical core
xCORE logical core
xCORE logical core
xCORE logical core
USB
SRAM
OTP
xCONNECT Switch
xCORE logical core
xCORE logical core
xCORE logical core
3
JTAG
xTIME
scheduler
xCORE logical core
xCORE logical core
Figure 2:
xCORE-200
device
PLL
xCORE logical core
xCORE logical core
xCORE logical core
xCORE logical core
xCORE logical core
xCORE logical core
OTP
SRAM
RGMII
Analog input audio channels
A total of eight single-ended analog input channels are provided via 3.5mm stereo
jacks. Each is fed into a CirrusLogic CS5368 ADC.
Figure 3:
Analog input
stage
The four digital input channels SDIN1 to SDIN4 are mapped to the xCORE inputs
xSDIN1 to xSDIN4 through a header array as described in Figure 4. The jumper
allows channel selection when the DAC is used in TDM mode
Row 1, column 1 is defined as the pin closest to pin 1 of the header (as denoted by
a triangle on the silk-screen).
The ADC registers are accessed via the I2C bus - see §12.
1 http://www.xmos.com/published/xcore-architecture
XM009539C
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
Figure 4:
Analog input
patching
Row
Column 1
Column 2
Column 3
1
ADC_SD1
iADC_SD1
ADC_SD1
2
ADC_SD2
iADC_SD2
ADC_SD1
3
ADC_SD3
iADC_SD3
ADC_SD1
4
ADC_SD4
iADC_SD4
ADC_SD1
5/28
The xSDIN signals are connected to both 1b and 4b ports of the xCORE-200 IO as
described in Figure 5. This allows additional flexibility in the firmware.
Figure 5:
Analog input
xCORE GPIO
Audio output
xCORE GPIO
Port
Description
iADC_SD1
X0D24
P1I
Analog input 1 (DSD_MODE = 0)
iADC_SD2
X0D25
P1J
Analog input 2 (DSD_MODE = 0)
iADC_SD3
X0D34
P1K
Analog input 3 (DSD_MODE = 0)
iADC_SD4
X0D35
P1L
Analog input 4 (DSD_MODE = 0)
OVERFLOW
X0D15
P4C1
Active low overflow
ADC_RST_N
X0D32
P4E2
Active low reset
LRCLK
X0D22
P1G
Serial audio channel clock
SCLK
X0D23
P1H
Main timing for serial audio interface
MCLK_AUDIO
See notes below
ADC master clock
Notes:
· Details of the analog input stage clocking scheme can be found in §8.
4
Analog output audio channels
A total of eight single-ended analog output channels are provided. Each is fed into
a CirrusLogic CS4384 DAC.
The four digital output channels SDOUT1 to SDOUT4 are mapped to the xCORE
inputs xSDOUT1 to xSDOUT4 through a header array as described in Figure 7.
Row 1, column 1 is defined as the pin closest to pin 1 of the header (as denoted by
a triangle on the silk-screen).
The ADC registers are accessed via the I2C bus - see §12.
The xSDOUT signals are connected to the xCORE-200 IO as described in Figure 8
Notes:
XM009539C
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
Figure 6:
Analog
output stage
Figure 7:
Analog
output
patching
Figure 8:
Analog
output
xCORE GPIO
Row
Column 1
Column 2
Column 3
1
DAC_SD1
xDAC_SD1
DAC_SD1
2
DAC_SD2
xDAC_SD2
DAC_SD1
3
DAC_SD3
xDAC_SD3
DAC_SD1
4
DAC_SD4
xDAC_SD4
DAC_SD1
Audio output
xCORE GPIO
Port
Description
DAC_SD5
X0D24
P1I
DAC DSD5 (DSD_MODE = 1)
DAC_SD6
X0D25
P1J
DAC DSD6 (DSD_MODE = 1)
DAC_SD7
X0D34
P1K
DAC DSD7 (DSD_MODE = 1)
DAC_SD8
X0D35
P1L
DAC DSD8 (DSD_MODE = 1)
xDAC_SD1
X0D36 | P1M
DAC SD/DSD1
xDAC_SD2
X0D37 | P1N
DAC SD/DSD2
xDAC_SD3
X0D38 | P1O
DAC SD/DSD3
xDAC_SD4
X0D39 | P1P
DAC SD/DSD4
DAC_RST_N
X0D27
P4E1
Active low reset
LRCLK
X0D22
P1G
Serial audio channel clock
SCLK
X0D23
P1H
Main timing for serial audio interface
MCLK_AUDIO
See notes below
DAC master clock
· Details of the analog input stage clocking scheme can be found in §8.
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Digital audio output
Optical and coaxial digital audio transmitters are used to provide digital audio
output in formats such as IEC60958 consumer mode (S/PDIF) and ADAT.
The data streams from the xCORE-200 are re-clocked using the external master
clock to synchronise the data into the audio clock domain. This is achieved using
simple external D-type flip-flops.
The optical output uses a TOSLINK optical connector with an integrated LED and
differential driving circuit. The coaxial output uses an RCA connector and is
isolated via a transformer.
Figure 9:
Optical audio
output
The signals are generated from two 1-bit ports on the xCORE-200.
Figure 10:
Optical
output audio
xCORE GPIO
Audio signal
xCORE GPIO
Port
Description
OPT_TX
X0D12
P1E
For use with either S/PDIF or ADAT
COAX_TX
X0D11
P1D
For use with either S/PDIF or ADAT
MCLK_DIG
See notes below
Digital master clock
Notes:
· Details of the analog input stage clocking scheme can be found in §8.
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Digital audio input
Digital audio input is provided to allow formats such as IEC60958 consumer mode
(S/P DIF) or ADAT to be connected to the device via either optical or coaxial
mediums.
The optical input uses a TOSLINK optical connector with an integrated photodiode
and receiver circuit. The coaxial input uses an RCA connector and is AC-coupled
into a 75Ω terminator.
This gives a signal level of 0.5Vp-p , which is fed into a differential line receiver.
Figure 11:
Optical audio
input
The input signals are fed into two 1-bit ports on the xCORE-200 device.
Figure 12:
Optical audio
input xCORE
GPIO
Audio signal
xCORE GPIO
Port
Description
OPT_RX
X1D38
P1O
For use with either S/PDIF or ADAT
COAX_RX
X1D39
P1P
For use with either S/PDIF or ADAT
MCLK_DIG
See notes below
Digital master clock
Notes:
· Details of the analog input stage clocking scheme can be found in §8.
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MIDI audio input and output
MIDI I/O is provided on the board via a standard Gameport connector. The signals
are buffered using 5V line drivers and are then connected to 1-bit ports on the
xCORE-200, via a 5V to 3.3V buffer.
10Ω pull ups are placed on the MIDI IN signal from the connector and on the MIDI
OUT signal from the xCORE-200. These stop glitches on startup and when no MIDI
devices are connected to the board
Figure 13:
MIDI audio
input/output
The MIDI audio signals are connected to the xCORE-200 IO, as described in Figure 14, via a 5V to 3.3V buffer.
Figure 14:
MIDI audio
xCORE GPIO
XM009539C
Audio signal
xCORE GPIO
Port
MIDI_TX
X1D37
P1N
MIDI_RX
X1D36
P1M
Description
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Audio clocking
A flexible clocking scheme is provided for both audio and other system services.
Figure 15:
Clocking
circuit
In order to accommodate a multitude of clocking options, the low-jitter master
clock is generated locally using a frequency multiplier PLL chip. The chip used is a
Phaselink PL611-01, which is pre-programmed to provide a 24MHz clock from its
CLK0 output, and either 24.576 MHz (FSEL high) or 22.5792MHz (FSEL low) from
its CLK1 output.
The 24MHz fixed output is provided to the xCORE-200 device, as the main processor clock. It also provides the reference clock to a CirrusLogic CS2100, which
provides a very low jitter audio clock from a synchronisation signal provided from
the xCORE-200.
Either the locally generated clock (from the PL611) or the recovered low jitter clock
(from the CS2100) may be selected to clock the audio stages; the xCORE-200, the
ADC/DAC and Digital output stages.
Audio signal
xCORE GPIO
Port
Description
MCLK_FSEL
X0D33
P4E3
PLL_SYNC
PLL_SELECT
X0D0
X0D31
P1A
P4F3
MCLK_XCORE
X0D13, X1D35
P1F, P1L
Set local clock to 24.576 MHz
(MCLK_FSEL high) or 22.5792MHz
(MCLK_FSEL low)
Reference clock from xCORE-200
Select local fixed clock (SELECT
low) or PLL output (SELECT high)
Audio clock to xCORE audio path
The CirrusLogic CS2100 device is controlled using I2C. Further information on the
xCORE-200 Multichannel Audio Platform I2C bus can be found in §12.
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USB Connectivity
The USB connectivity section consists of a Lightning connector (Force Host), a USB
A connector, USB B connector and a high-speed 3:1 switch to select between them.
The figure below shows the layout of the USB subsection:
Figure 16:
USB section
The USB signals are mapped onto the xCORE-200 device as shown in Figure 17
Figure 17:
USB xCORE
GPIO
USB signal
xCORE GPIO
Port
Description
USB_D_N & P
See note
USB_SEL0
X0D28
P4F0
Bit 0 of USB switch select signal
USB_SEL1
X0D29
P4F1
Bit 1 of USB switch select signal
VBUS_OUT_EN
X0D30
P4F2
Enable output onto VBUS
ACC_DETECT
X0D14
P4C0
Apple accessory detect
USB physical layer signals
Notes:
· The XE216 device incorporates a dedicated USB PHY device, so GPIO are not
required
Two LEDs are provided to indicate the inverted status of USB select 0 and 1. The
USB switch should be configured as shown in Figure 18
Figure 18:
USB source
selection
USB select
LED state
USB source
Description
0
Both on
NA
Sleep mode (DP, DN switch paths open
1
D28 ON
Lightning
See note
2
D29 ON
USB A connector
3
Both off
USB B connector
Notes:
· For Lightning enabled devices an Apple authentication co-processor is included
on the I2C bus. Further details of I2C connectivity are given §12.
5V is supplied to the Lightning and USB A connector, from a local power supply, to
provide VBUS to connected devices under the control of VBUS enable. This supply
can be disabled by bringing the VBUS output enable low.
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Ethernet Connectivity
Ethernet connectivity consists of a Gigabit Ethernet PHY and RJ45 connector with
integrated magnetics. The figure below shows the layout of the Ethernet subsection:
Figure 19:
Gigabit
Ethernet
section
Three indivator LEDs are provided on the RJ45 connector:
· A yellow LED indicates activity
· A green LED indicates a Gigabit Ethernet connection
· An orange LED indicates a 10/100Mbps Ethernet connection
The RGMII signals are mapped onto the xCORE-200 device as shown in Figure 20
Figure 20:
Ethernet
xCORE GPIO
XM009539C
RGMII signal
xCORE GPIO
TX_CLK
X1D26
TX_CTL
X1D27
RX_CLK
X1D28
RX_CTL
X1D29
RX0
X1D30
RX1
X1D31
RX2
X1D32
RX3
X1D33
TX0
X1D43
TX1
X1D42
TX2
X1D41
TX3
X1D40
INT
X1D03
MDIO
X1D10
MDC
X1D11
ETH_RST_N
X1D02
Description
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General purpose user interface
An array of 4*4 green LEDs, 3 buttons and a switch are provided for general
purpose user interfacing. The LED array is driven by eight signals each controlling
one of 4 rows and 4 columns.
The figure below shows the layout of the user interface subsection:
Figure 21:
User interface
components
The signal mapping of the user interface components is shown in Figure 22
Figure 22:
User interface
GPIO
XM009539C
UI signal
xCORE GPIO
Port
Description
LED_ROW_0
X1D14
P4C0
Row 0 LED driver control (active high)
LED_ROW_1
X1D15
P4C1
Row 1 LED driver control (active high)
LED_ROW_2
X1D20
P4C2
Row 2 LED driver control (active high)
LED_ROW_3
X1D21
P4C3
Row 3 LED driver control (active high)
LED_COL_0
X1D16
P4D0
Column 0 LED driver control (active high)
LED_COL_1
X1D17
P4D1
Column 1 LED driver control (active high)
LED_COL_2
X1D18
P4D2
Column 2 LED driver control (active high)
LED_COL_3
X1D19
P4D3
Column 3 LED driver control (active high)
BUTTON_1
X1D04
P4B0
Push button 1 (active low)
BUTTON_2
X1D05
P4B1
Push button 2 (active low)
BUTTON_3
X1D06
P4B2
Push button 3 (active low)
SWITCH_1
X1D07
P4B3
Common terminal of Slider switch 1
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I2C bus address map
The address of the I2C bus on the xCORE-200 MC audio platform is shown in
Figure 23
Figure 23:
I2C address
map
13
I2C address
Device
0x4C (0x99[r], 0x98[w] )
CirrusLogic CS5368 Audio ADC
0x18 (0x31[r], 0x30[w] )
CirrusLogic CS4384 Audio DAC
0x4E (0x9D[r], 0x9C[w] )
CirrusLogic CS2100 PLL
xSYS Debug
A standard XMOS xSYS interface is provided to allow host debug of the board via
JTAG.
An XTAG debug adapter can be plugged into this port to allow running/debugging
code, programming the FLASH memory and selection of boot mode. A 20-way IDC
header is used as the physical connector and the pinout of this is shown below:
XSYS signal
xCORE GPIO
Header pin
Description
TMS
See note
7
JTAG Test Mode Select.
TCK
See note
9
JTAG Test Clock.
TDI
See note
5
JTAG Test Data In. From debug
adapter to XS1-U8.
TDO
See note
13
JTAG Test Data Out. From XS1-U8 to
debug adapter.
RST_N
See note
15
System Reset. Active low, resets
XS1-U8 device
4, 8, 12, 16, 20
Ground.
GND
Figure 24:
XSYS
Connector
Pinout
XL_UP1
X0D43
6
XMOS link, uplink bit 1
XL_UP0
X0D42
10
XMOS link, uplink bit 0
XL_DN1
X0D40
14
XMOS link, downlink bit 1
XL_DN0
X0D41
18
XMOS link, downlink bit 0
Notes:
· JTAG connections occupy dedicated connections
On power on, the XE216 device boots from the on-board flash memory. With the
xTAG connected, the XE216 can be reset and then booted from a program on the
host PC.
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QSPI Flash
xCORE-200 Multichannel Audio Platform provides 2Mbytes of Quad Serial Peripheral
Interface (QSPI) FLASH memory, which is interfaced by the GPIO connections shown
in Figure 25:
Figure 25:
QSPI Flash
QSPI connection
Pin
Port
SPI_CS
X0D01
P1B
QSP_D0
X0D04
P4B0
QSP_D1
X0D05
P4B1
QSP_D2
X0D06
P4B2
QSP_D3
X0D07
P4B3
SPI_CLK
X0D10
P1C
The xTIMEcomposer tools include the xFLASH utility for programming compiled
programs into the flash memory. xCORE-200 Multichannel Audio Platform designs
may also access the FLASH memory at run-time by interfacing with the above pins.
15
Operating requirements
A USB 2.0 high-speed compliant cable of less than 3m in length should be used
when operating the xCORE-200 Multichannel Audio Platform. XMOS cannot guarantee correct operation of the xCORE-200 Multichannel Audio Platform should any
other cable be used.
This product is, like most electronic equipment, sensitive to Electrostatic Discharge
(ESD) events. Users should operate the xCORE-200 Multichannel Audio Platform
with appropriate ESD precautions in place.
16
Dimensions
The xCORE-200 Multichannel Audio Platform dimensions are 180x110mm. The
mounting holes are 2mm in diameter.
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xCORE-200 Multichannel Audio (MFi) Platform Portmap
The table below provides a full description of the port-pin mappings described
throughout this document.
Figure 26:
xCORE-200
Multichannel
Audio (MFi)
Platform
Portmap
XM009539C
Pin
X0D00
X0D01
X0D02
X0D03
X0D04
X0D05
X0D06
X0D07
X0D08
X0D09
X0D10
X0D11
X0D12
X0D13
X0D14
X0D15
X0D16
X0D17
X0D18
X0D19
X0D20
X0D21
X0D22
X0D23
X0D24
X0D25
X0D26
X0D27
X0D28
X0D29
X0D30
X0D31
X0D32
X0D33
X0D34
X0D35
X0D36
X0D37
X0D38
X0D39
X0D40
X0D41
X0D42
X0D43
1-bit
1A0
1B 0
4-bit
8-bit
16-bit
32-bit
4A0
4A1
4B 0
4B 1
4B 2
4B 3
4A2
4A3
8A0
8A1
8A2
8A3
8A4
8A5
8A6
8A7
16A0
16A1
16A2
16A3
16A4
16A5
16A6
16A7
32A20
32A21
32A22
32A23
32A24
32A25
32A26
32A27
1C 0
1D 0
1E 0
1F 0
4C 0
4C 1
4D 0
4D 1
4D 2
4D 3
4C 2
4C 3
8B 0
8B 1
8B 2
8B 3
8B 4
8B 5
8B 6
8B 7
16A8
16A9
16A10
16A11
16A12
16A13
16A14
16A15
1G0
1H 0
1I 0
1J 0
4E 0
4E 1
4F 0
4F 1
4F 2
4F 3
4E 2
4E 3
1K 0
1L0
1M 0
1N 0
1O 0
1P 0
8C 0
8C 1
8C 2
8C 3
8C 4
8C 5
8C 6
8C 7
16B 0
16B 1
16B 2
16B 3
16B 4
16B 5
16B 6
16B 7
8D 0
8D 1
8D 2
8D 3
8D 4
8D 5
8D 6
8D 7
16B 8
16B 9
16B 10
16B 11
16B 12
16B 13
16B 14
16B 15
32A28
32A29
Signal
PLL_SYNC
SPI_CS
I2C_SCL
I2C_SDA
QSPI_D0
QSPI_D1
QSPI_D2
QSPI_D3
SPI_CLK
COAX_TX
OPT_TX
MCLK_XCORE
ACC_DETECT
OVERFLOW
BUTTON_1
BUTTON_2
BUTTON_3
SWITCH_1
32A30
32A31
LRCLK
SCLK
xSDIO1
xSDIO2
DSD_MODE
DAC_RST_N
USB_SEL0
USB_SEL1
VBUS_OUT_EN
PLL_SELECT
ADC_RST_N
MCLK_FSEL
xSDIO3
xSDIO4
xDAC_SD1
xDAC_SD2
xDAC_SD3
xDAC_SD4
XL_DN1
XL_DN0
XL_UP0
XL_UP1
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
Pin
1-bit
4-bit
8-bit
16-bit
32-bit
Signal
X1D02
4A0
8A0
16A0
32A20
ETH_RST_N
X1D03
4A1
8A1
16A1
32A21
ETH_INT
X1D04
4B 0
8A2
16A2
32A22
BUTTON_1
X1D05
4B 1
8A3
16A3
32A23
BUTTON_2
X1D06
4B 2
8A4
16A4
32A24
BUTTON_3
X1D07
4B 3
8A5
16A5
32A25
SWITCH_1
X1D08
4A2
8A6
16A6
32A26
4A3
8A7
16A7
32A27
X1D00
1A0
X1D01
1B 0
X1D09
Figure 27:
xCORE-200
Multichannel
Audio
Platform
Portmap
XM009539C
17/28
X1D10
1C 0
X1D11
1D 0
MDIO
MDC
X1D14
4C 0
8B 0
16A8
32A28
LED_ROW_0
X1D15
4C 1
8B 1
16A9
32A29
LED_ROW_1
X1D16
4D 0
8B 2
16A10
LED_COL_0
X1D17
4D 1
8B 3
16A11
LED_COL_1
X1D18
4D 2
8B 4
16A12
LED_COL_2
X1D19
4D 3
8B 5
16A13
X1D20
4C 2
8B 6
16A14
32A30
X1D21
4C 3
8B 7
16A15
32A31
X1D26
4E 0
8C 0
16B 0
ETH_TX_CLK
X1D27
4E 1
8C 1
16B 1
ETH_TX_CTL
X1D28
4F 0
8C 2
16B 2
ETH_RX_CLK
X1D29
4F 1
8C 3
16B 3
ETH_RX_CTL
X1D30
4F 2
8C 4
16B 4
ETH_RX0
X1D31
4F 3
8C 5
16B 5
ETH_RX1
X1D32
4E 2
8C 6
16B 6
ETH_RX2
X1D33
4E 3
8C 7
16B 7
ETH_RX3
LED_COL_3
LED_ROW_2
LED_ROW_3
X1D35
1L0
X1D36
1M 0
8D 0
16B 8
X1D37
1N 0
8D 1
16B 9
MIDI_TX
X1D38
1O 0
8D 2
16B 10
OPT_RX
X1D39
1P 0
8D 3
16B 11
COAX_RX
X1D40
8D 4
16B 12
ETH_TX3
X1D41
8D 5
16B 13
ETH_TX2
X1D42
8D 6
16B 14
ETH_TX1
X1D43
8D 7
16B 15
ETH_TX0
MCLK
MIDI_RX
xCORE-200 Multichannel Audio (MFi) Platform schematics
18
COMI0TX
MI_TX
COMI0RX
MI_RX
PIU2309
PIR13701
PIR13702
PIR13902 PIR13802
3V3
COR13PI9R1C39O01R13PI8R13801
NLSPI0CLK
SPI_CLK
NLCOAX0TX
COAX_TX
NLOPT0TX
OPT_TX
NLMCLK0XCORE
MCLK_XCORE
NLACC0DETECT
ACC_DETECT
PISCL01
PISDA01
NLLRCLK
LRCLK
PILRCLK01
COLRCLK
LRCLK
NLSCLK
SCLK
PISCLK01
COSCLK
SCLK
NLxSDIO1
xSDIO1
PIxSDIO101
COxSDIO1
xSDIO1
NLxSDIO2
xSDIO2
PIxSDIO201
COxSDIO2
xSDIO2
NLDSD0MODE
DSD_MODE
NLDAC0RST0N
DAC_RST_N
NLUSB0SEL0
USB_SEL0
NLUSB0SEL1
USB_SEL1
NLVBUS0OUT0EN
VBUS_OUT_EN
NLPLL0SELECT
PLL_SELECT
NLADC0RST0N
ADC_RST_N
NLMCLK0FSEL
MCLK_FSEL
NLxSDIO3
xSDIO3
PIxSDIO301
COxSDIO3
xSDIO3
NLxSDIO4
xSDIO4
PIxSDIO401
COxSDIO4
xSDIO4
NLxDAC0SD1 PIxDAC0SD101 COxDAC0SD1
xDAC_SD1
NLxDAC0SD2 PIxDAC0SD201 xDAC_SD1
xDAC_SD2
xDAC_SD2
NLxDAC0SD3 PIxDAC0SD301 COxDAC0SD2
xDAC_SD3
COxDAC0SD3
xDAC_SD3
NLxDAC0SD4
xDAC_SD4
PIxDAC0SD401
COxDAC0SD4
xDAC_SD4
NLXL0DN1
XL_DN1
NLXL0DN0
XL_DN0
COR142
NLXL0UP0
R142
XL_UP0
PIR14201
COR143
NLXL0UP1
R143
XL_UP1
PIR14301
NLSWITCH01
SWITCH_1
COR202
R202 NLOVERFLOW
OVERFLOW
PIR20201
NLBUTTON01
BUTTON_1
NLBUTTON02
BUTTON_2
NLBUTTON03
BUTTON_3
NLPLL0SYNC
PLL_SYNC
NLSPI0CS
SPI_CS
NLI2C0SCL
I2C_SCL
NLI2C0SDA
I2C_SDA
NLQSPI0D0
QSPI_D0
NLQSPI0D1
QSPI_D1
NLQSPI0D2
QSPI_D2
NLQSPI0D3
QSPI_D3
COR137
3V3
30
PIU23030
27
PIU23027
37
PIU23037
38
PIU23038
31
PIU23031
33
PIU23033
34
PIU23034
35
PIU23035
39
PIU23039
40
PIU23040
28
PIU23028
32
PIU23032
62
PIU23062
63
PIU23063
57
PIU23057
58
0R
PIU23058 PIR20202
68
PIU23068
69
PIU23069
70
PIU23070
71
PIU23071
59
PIU23059
61
PIU23061
64
PIU23064
66
PIU23066
88
PIU23088
89
PIU23089
93
PIU23093
94
PIU23094
96
PIU23096
98
PIU23098
99
PIU23099
100
PIU230100
95
PIU23095
97
PIU23097
90
PIU23090
91
PIU23091
3
PIU2303
4
PIU2304
5
PIU2305
7
PIU2307
8
9
10
33R
PIR14202
12
33R
PIR14302
PIU2308
PIU23010
PIU23012
OPT_TX
COAX_TX
NLCOAX0RX
COAX_RX
OPT_RX
NLOPT0RX
COSCL
SCL
COSDA
SDA
PIC0RX01
PIO0RX01
PIO0TX01
PIC0TX01
COC0RX
C_RX
COO0RX
O_RX
COO0TX
O_TX
C_TX
COC0TX
PIR14602
46
47
45
43
48
USB_DP
USB_DM
U23E
USB_VBUS
USB_ID
U23D
X1D00
X1D01
X1D02
X1D03
X1D04
X1D05
X1D06
X1D07
X1D08
X1D09
X1D10
X1D11
X1D14
X1D15
X1D16
X1D17
X1D18
X1D19
X1D20
X1D21
X1D26
X1D27
X1D28
X1D29
X1D30
X1D31
X1D32
X1D33
X1D35
X1D36
X1D37
X1D38
X1D39
X1D40
X1D41
X1D42
X1D43
QSPI_D0
QSPI_D1
QSPI_D2
QSPI_D3
XE216-512-TQ128
USB_RTUNE
XE216-512-TQ128
PIU23048
PIU23043
PIU23045
PIU23047
PIU23046
VBUS_IN
43R2
R146
COR146
USB_D_P
NLUSB0D0P
USB_D_N
NLUSB0D0N
PIR14601
GND
85
PIU23085
86
PIU23086
72
PIU23072
74
PIU23074
75
PIU23075
76
PIU23076
77
PIU23077
79
PIU23079
82
121
122
PIU23082
84
PIU23084
PIU230122
PIU230121
51
PIU23051
53
PIU23053
22
23
25
PIU23023
PIU23022
54
55
PIU23025
26
PIU23026
PIU23055
PIU23054
0R
PIR14702
0R
PIR14802
NLMDIO
MDIO
NLMDC
MDC
BUTTON_1
BUTTON_2
BUTTON_3
SWITCH_1
NLETH0RST
ETH_RST
COR148 NLINT
INT
COR147
R147
PIR14701
R148
PIR14801
22R
PIR14002
NLTX0CLK
TX_CLK
NLTX0CTL
TX_CTL
NLRX0CLK
RX_CLK
NLRX0CTL
RX_CTL
NLRX0
RX0
NLRX1
RX1
NLRX2
RX2
NLRX3
RX3
NLTX3
TX3
NLTX2
TX2
NLTX1
TX1
NLTX0
TX0
GND
SPI_CS
SPI_CLK
3V3
MCLK_XCORE
MIDI_RX
MIDI_TX
OPT_RX
COAX_RX
COR140
112
R140
PIU230112
PIR14001
113
PIU230113
114
115
116
117
118
119
PIU230114
PIU230115
PIU230116
PIU230117
PIU230118
PIU230119
13
PIU23013
15
PIU23015
18
PIU23018
20
PIU23020
21
PIU23021
106
107
108
109
PIU230107
PIU230106
8
PIU2406
6
4
PIU2408
1
PIU2401
PIU2404
POR
U_xC-200-MC-AUDIO-LEDA
xC-200-MC-AUDIO-LEDA.SchDoc
LED_ROW_0
LED_ROW_1
LED_COL_0
LED_COL_1
LED_COL_2
LED_COL_3
LED_ROW_2
LED_ROW_3
INT
MDIO
MDC
PHY_RSTn
U_xC-200-MC-AUDIO-Ether
xC-200-MC-AUDIO-Ether.SchDoc
TX_CLK
TX_EN
RX_CLK
RX_DV
RX0
RX1
RX2
RX3
TX3
TX2
TX1
TX0
3V3
C136
100N
PIC13601 COC136
PIC13602
GND
A1
3V3
COSW2
SW2
CANDK_OS
INT
MDIO
MDC
ETH_RST
5
Y1
PIU2604
PIU2606
PIU2605
2
4
6
Y2
VCC
2
1
PISW203
PISW202
PISW201
PIR19401
3V3
10K
COR136
R136
PIR13602
123
CLK
RST_N
COU23A
COU23B
COU23C
COU23D
COU23E
U23A
C145
C146
1A
1B
COSW1
SW1
COSW3
SW3
KSC421J
PISW101B
PISW101A
1A
1B
C147
C148
KSC421J
COSW4
SW4
KSC421J
PISW301B
PISW301A
1A
1B
PISW401B
PISW401A
GND
XE216-512-TQ128
PIU230123
PIU2302
1
PIU2301
128
PIU230128 TCK
127
PIU230127 TMS
2
TDI
TDO
TRST_N
PIU230125
124
PIU230124
125
SWITCH_1
0R
C144
PIR14501
NL24M0CLK
24M_CLK
RST_N
NLRST0N
PIR14502
C143
TCK
TMS
TDI
TDO
R145
COR145
PIR13601
GND
3
COR194
PIR19402
COU26
U26
A2
3V3
1
PIU2601
3
PIU2603
PIU2602
PIR19302
PIR19301
NC7WZ07
GND
GND
3V3
COR193
XSYS_RST_N
POR_N
NLPOR0N
U_xC-200-MC-AUDIO-Power
xC-200-MC-AUDIO-Power.SchDoc
Vcc
CE_n
SCK
GND
IS25LQ080B
IO0
IO1
IO2
IO3
COU24
U24
PIU230109
PIU230108
5
3
7
PIU2405
2
PIU2402
PIU2403
PIU2407
J9
COJ9
PIC1420
100N
PIC14302
100N
PIC1402
100N
PIC14502
100N
PIC14602
100N
PIC14702
100N
PIC14802
100N
2A
2B
PISW102B
PISW102A
2A
2B
PISW302B
PISW302A
2A
2B
3V3
PIR13 02 PIR13402 PIR13502
COR13PIR13C0O1R13PI4R13C40O1R13PI5R13501
3
PIJ703
BUTTON_1
BUTTON_2
BUTTON_3
COJ7
J7
C151
100N
PIC1502
100N
PIC1502
100N
DSD_MODE
xDAC_SD3
NC
NC
NLiADC0SD1
iADC_SD1
NLDAC0SD5
DAC_SD5
NLiADC0SD2
iADC_SD2
NLDAC0SD6
DAC_SD6
NLiADC0SD3
iADC_SD3
NLDAC0SD7
DAC_SD7
NLiADC0SD4
iADC_SD4
PIR14 01
PIR14102
2
4B1
3B2
3B1
2B2
2B1
1B2
1B1
COU22
U22
PIU2202
3
PIU2203
5
PIU2205
6
PIU2206
PIU22011
11
PIU22010
14
10
PIU22014
4B2
13
1
15
1A
VCC
PIU2209
PIU2207
PIU2204
PIU22016
3V3
2A
PIU22012
16
3A
8
12
9
7
4
4A
PIU2208
GND
GND
1V0
11
PIU23011
16
PIU23016
17
PIU23017
24
PIU23024
36
PIU23036
41
PIU23041
56
PIU23056
60
PIU23060
73
PIU23073
80
PIU23080
81
PIU23081
87
PIU23087
101
PIU230101
102
PIU230102
120
PIU23049
49
PIU230120
126
PIU230126
USB_VDD
PIU230103
129
104
103
PLL_AVDD
PIU230104
GND
PIU230129
C155
GND
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
SCL
SDA
ADC_RST_N
LRCLK
SCLK
MCLK
C139
PIR14 02
PIR14 01
2V5
100N
C140
PIC1401 COC140
PIC1402
GND
COR14
1V0
OVFL_N
SDOUT1
SDOUT2
SDOUT3
SDOUT4
U_xC-200-MC-AUDIO-ADC
xC-200-MC-AUDIO-ADC.SchDoc
MCLK
LRCLK
SCLK
SD1
SD2
SD3
SD4
DAC_RST_N
SCL
SDA
DSD5
DSD6
DSD7
DSD8
U_xC-200-MC-AUDIO-DAC
xC-200-MC-AUDIO-DAC.SchDoc
74CBTLV3257
S
OE_N
PIU22013
PIU2201
PIU22015
GND
NLDAC0SD8
DAC_SD8
COR141
GND
MCLK_AUDIO
LRCLK
SCLK
NLDAC0SD1
DAC_SD1
NLDAC0SD2
DAC_SD2
NLDAC0SD3
DAC_SD3
NLDAC0SD4
DAC_SD4
DAC_RST_N
I2C_SCL
I2C_SDA
DAC_SD5
DAC_SD6
DAC_SD7
DAC_SD8
C154
XE216-512-TQ128
3V3
100N
GND
PIC15302
PIC15402
100N
PIC1502
100N
PIC15602
PIC13802
100N
C138
100N
C156
PIC13902
100N
xSDIO1
xSDIO2
xSDIO3
100N
PIC13502
C135
PIC13501 COC135
3V3
GND
OVERFLOW
NLADC0SD1
ADC_SD1
NLADC0SD2
ADC_SD2
ADC_SD3
NLADC0SD3
ADC_SD4
NLADC0SD4
xSDIO4
C137
100N
GND
PIC13702
PIC15301 COC153 PIC15401 COC154 PIC1501 COC155 PIC15601 COC156 PIC13801 COC138 PIC13901 COC139 PIC13701 COC137
C153
PLL_AGND
I2C_SCL
I2C_SDA
ADC_RST_N
LRCLK
SCLK
MCLK_AUDIO
USB_VDD33
U23B
OTP_VCC
105
PIU23044
VDDIOL
VDDIOL
VDDIOL
VDDIOL
VDDIOL
PIU230105
6
14
19
29
42
PIU23014
PIU2306
PIU23029
PIU23019
PIU23042
100N
VDDIOT
VDDIOT
52
PIU23052 VDDIOR
67
PIU23067 VDDIOR
78
PIU23078 VDDIOR
83
PIU23083 VDDIOR
92
VDDIOR
110
111
PIU23092
PIU230111
PIU230110
65
50
PIU23065
PIU23050
C152
3V3
PIC1520
44
xDAC_SD4
2V5
COPROD5
PROD5
JUMPER SHUNT
PROD6
COPROD6
JUMPER SHUNT
COPROD7
PROD7
JUMPER SHUNT
PROD8
COPROD8
JUMPER SHUNT
PIJ7011
PIJ7010
PIJ708
7
8
10
11
PIJ704
5
PIJ705
1
PIJ701
2
xDAC_SD1
4
xDAC_SD2
PIJ702
PIJ707
6
12
9
PIJ706
C150
PIJ709
PIJ7012
C149
PISW402B
PISW402A
PIC14902
R141
U23C
X0D00
X0D01
X0D02
X0D03
X0D04
X0D05
X0D06
X0D07
X0D08
X0D09
X0D10
X0D11
X0D12
X0D13
X0D14
X0D15
X0D16
X0D17
X0D18
X0D19
X0D20
X0D21
X0D22
X0D23
X0D24
X0D25
X0D26
X0D27
X0D28
X0D29
X0D30
X0D31
X0D32
X0D33
X0D34
X0D35
X0D36
X0D37
X0D38
X0D39
X0D40
X0D41
X0D42
X0D43
COAXIAL_RX
OPTICAL_RX
OPTICAL_TX
COAXIAL_TX
USB_ID
USB_D_P
USB_D_N
U_xC-200-MC-AUDIO-USB
xC-200-MC-AUDIO-USB.SchDoc
MCLK_DIO
MIDI_TX
MIDI_RX
U_xC-200-MC-AUDIO-DIG
xC-200-MC-AUDIO-DIG.SchDoc
XE216-512-TQ128
NLMIDI0RX
NLMIDI0TX
MIDI_TX
NLMCLK0DIG
MCLK_DIG
PIMI0TX01
MIDI_RX
PIMI0RX01
USB_SEL0
USB_SEL1
VBUS_OUT_EN
ACC_DETECT
I2C_SCL
I2C_SDA
USB_SEL0
USB_SEL1
VBUS_OUT_EN
ACC_DETECT
SCL
SDA
MCLK
COMCLK
100N
4R7
10K
POWER
10K
10K
10K
R133
R134
R135
1K
U_xC-200-MC-AUDIO-Clock
xC-200-MC-AUDIO-Clock.SchDoc
MCLK_XCORE
PIMCLK01
MCLK_DIG
24M_CLK
1V0
C142
SYSTEM
PIC1401 COC141 PIC14201 COC142 PIC14301 COC143 PIC1401 COC144 PIC14501 COC145 PIC14601 COC146 PIC14701 COC147 PIC14801 COC148 PIC14901 COC149 PIC1501 COC150 PIC1501 COC151 PIC15201 COC152
PIC1402
C141
10K
2K2
2K2
R139
R138
MCLK_AUDIO
NLMCLK0AUDIO
XL_UP1
XL_UP0
XL_DN0
XL_DN1
R194
R137
MCLK_FSEL AUDIO_MCLK
PLL_SYNC MCLK_XCORE
I2C_SCL
MCLK_SPDIF
I2C_SDA
24M_CLK
PLL_SELECT
2
PIJ902
4
PIJ904
6
PIJ906
8
PIJ908
10
12
14
16
18
20
PIJ9012
PIJ9014
HEADER_RA
PIJ9016
PIJ9020
PIJ9018
PIJ9010
1
PIJ901
3
PIJ903
5
PIJ905
7
PIJ907
9
11
13
17
19
PIJ9011
PIJ9013
PIJ909
PIJ9019
PIJ9017
10K
IO TILE 0
MCLK_FSEL
PLL_SYNC
I2C_SCL
I2C_SDA
PLL_SELECT
TDI
NLTDI
TMS
NLTMS
TCK
NLTCK
TDO
NLTDO
GND
iADC_SD1
iADC_SD2
iADC_SD3
iADC_SD4
1
2
PIJ801
5
7
8
10
PIJ802
4
PIJ804
PIJ805
PIJ807
PIJ808
PIJ8010
11
PIJ8011
COPROD9
PROD9
DCB-6
PROD10
COPROD10
DCB-6
PROD11
COPROD11
DCB-6
COPROD12
PROD12
DCB-6
PROD13
COPROD13
DCB-6
PROD14
COPROD14
DCB-6
12
PIJ809
9
PIJ806
6
PIJ803
3
COPROD1
PROD1
JUMPER SHUNT
COPROD2
PROD2
JUMPER SHUNT
COPROD3
PROD3
JUMPER SHUNT
COPROD4
PROD4
JUMPER SHUNT
COJ8
J8
PIJ8012
COMTH1
MTH1
PTH_M3
MTH2
COMTH2
PTH_M3
MTH3
COMTH3
PTH_M3
COMTH4
MTH4
PTH_M3
MTH5
COMTH5
PTH_M3
MTH6
COMTH6
PTH_M3
PIMTH101
PIMTH201
PIMTH301
PIMTH401
PIMTH501
GND
PIMTH601
of
Sheet Name
xC-200-MC-AUDIO-Top.SchDoc
1
02/04/2015
Sheet
Size
A2
Project Name
xCORE-200 MC AUDIO
Date
9
Rev
2V0
XM009539C
XSYS_RST_N 15
NLXSYS0RST0N
PIJ9015
GND
Figure 28:
xCORE-200
Multichannel
Audio
Platform
schematic (1
of 9)
R144
R193
IO TILE 1
USB
18/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
J5B
L829-1J1T-43
COR103
PIR108 2
PIR108 1
PIJ5015 ORa
PIR1 0 1
PIR1 0 2
PIR1 01
PIR1 02
J5C
L829-1J1T-43
COR1 1
VDDH_REG
COR1 0
PIX203
PIR10402
PIR104 1
C88
470P
COR105
PIC8902
PIR10502
PIR105 1
C89
470P
GND
20
39
40
1
4
5
7
23
COR106
PIC90 2
PIR10602
PIR10601
C90
470P
RBIAS
CLK_25M
XTLI
XTLO
RSTn
MDIO
MDC
INT
GTX_CLK
TX_EN
RX_CLK
RX_DV
RXD0
RXD1
RXD2
RXD3
TXD3
TXD2
TXD1
TXD0
GND
PIU1407
PIU14023
PIU1405
PIU1404
PIU1401
PIU14040
PIU14039
PIU14020
PIU14034
PIU14035
PIU14036
36
35
34
37
PIU14037
PIU14025
PIU14026
33
PIU14033
32
PIU14032
31
PIR11202 PIU14031
22R PIU14030
30
29
PIU14029
28
PIU14028
26
25
COX2
X2
GND
PIC8 02
PIC8 01 COC88 PIC8901 COC89 PIC90 1 COC90
COR104
VDDH_REG
PIX204
10K
PIR10302
PIR10301
PIJ5016
GRN PIJ5017
COR108
PIR11201
COR112
R112
COC101
PIC10101
PIR1 301
PIR1 302
PIX201 FA238
25M
PIX202
R106
PIR10202
PIR107 1
PIR107 2
3V3 VDDH_REG
COR107
PIC10102
R104
3V3
COR102
PIR102 1
PIJ5014
PIJ5013 YEL
POTX0CLK
TX_CLK
POTX0EN
TX_EN
PORX0CLK
RX_CLK
PORX0DV
RX_DV
PORX0
RX0
PORX1
RX1
PORX2
RX2
PORX3
RX3
POTX3
TX3
POTX2
TX2
POTX1
TX1
POTX0
TX0
POINT
INT
POMDIO
MDIO
COR109
COC106
PIC10601
10K
510R
POMDC
MDC
PIR10901
PIC10602
GND
COR1 3
GND
PIU14021 PIU1402 PIU1402
2
38
PIU14038
PIU1402
COU14
U14
AR8035
LX
DVDDL
6
PIU1406
PIU14017
17
11
PIU14011
PIU1403
AVDDL
AVDDL
AVDDL
VDD33
PIU14014
3
AVDD33
PIU1408
8
14
VDDH_REG
41
27
PIU14027
COL1
L1
4U7
PIL102
C98
100N
1V1
C91
10U
100N
C92
1V1
PIC920
PIC910 COC91 PIC9201 COC92
PIC9102
GND
PIFB102
1V1
PIFB101
470R
500mA
COFB1
FB1
GND
PIC10 2
100N
GND
1U
GND
C105
PIFB201
470R
XXA
PIFB202
100N
GND
PIC104 2 PIC1052
PIC104 1 COC104 PIC1051 COC105
C104
COFB2
FB2
C100
100N
C97
PIC9701 COC97
PIC9702
GND
C99
100N
GND
PIC9 02
PIC9801 COC98 PIC9 01 COC99 PIC10 1 COC100
PIC9802
GND
C107
1U
PIC1071 COC107
VDDH_REG
C108
GND
100N
PIC108 1 COC108 PIC1072
PIC108 2
GND
PIL101
GND
PIU14041
NLTRD040N
TRD_4_N
NLTRD040P
TRD_4_P
GND
VDDIO_REG
PIU1409 PIU140 PIU1402 PIU1403 PIU1405 PIU1406 PIU1408 PIU1409
NLTRD010N
TRD_1_N
NLTRD030N
TRD_3_N
NLTRD030P
TRD_3_P
NLTRD020N
TRD_2_N
NLTRD020P
TRD_2_P
NLTRD010P
TRD_1_P
C102
10U
3V3
GND
100N
C103
PIC1021 COC102 PIC1031 COC103
PIC102
PIC1032
GND
TRD_1_P
TRD_1_N
TRD_2_P
TRD_2_N
TRD_3_P
TRD_3_N
TRD_4_P
TRD_4_N
C93
100N
C94
100N
C95
100N
PIC9502 PIC9602
11
12
10
TRD2+
TRCT2
TRD2-
TRD1+
TRCT1
TRD1-
COJ5A
COJ5B
COJ5C
J5A
PIJ5011
PIJ5012
PIJ5010
4
6
5
PIJ504
PIJ506
PIJ505
L829-1J1T-43
TRD4+
TRCT4
TRD4-
3
PIJ503
TRD3+
1
TRCT3
2
TRD3PIJ501
PIJ502
8
9
7
PIJ507
PIJ508
PIJ509
C96
100N
PIC9301 COC93 PIC9401 COC94 PIC9501 COC95 PIC9601 COC96
PIC9302 PIC9402
GND
Project Name
xCORE-200 MC AUDIO
of
Sheet Name
xC-200-MC-AUDIO-Ether.SchDoc
2
02/04/2015
Sheet
Size
A3
9
Rev
2V0
XM009539C
Date
Figure 29:
xCORE-200
Multichannel
Audio
Platform
schematic (2
of 9)
22
LED_1000
24
LED_10_100
510R
1K5
10K
R113
10K
27P
C101
21
LED_ACT
TRXP0
TRXN0
TRXP1
TRXN1
TRXP2
TRXN2
TRXP3
TRXN3
9
10
12
13
15
16
18
19
PIR10902
GND
R110
15
10K
R105
2K37
10K
R111
27P
C106
R109
R103
16
17
10K
R108
R102
14
13
POPHY0RSTn
POPHY0RSTN
PHY_RSTn
R107
19/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
3A
COF1
F1
PIF102
COD1
D1
PID101
B240A
PID102
COD3
D3
SMBJ22A
PID301
PID302
GND
COFB3
FB3
PIFB301
12V
120R
3A
PIFB302
C160
1U
PIC160 1 COC160
PIC160 2
GND
5VA
C125
C124
C128
12V
C110
C111
C112
COR1 4
PIC101 COC110 PIC1 01 COC111 PIC1 201 COC112
PIC1 20
10U
PIC1 02
GND
10U
PIC102
GND
100U
GND
C130
1U
PIC1301 COC130
PIC1302
GND
PIR1 402
PIR1 401
PIC1702
100N
PIC1701 COC117
C117
100K
GND
R114
PIF101
C109
100N
PIC1091 COC109
PIC1092
GND
120R
3A
PIFB402
47U
GND
2U2
GND
100N
PIC12501 COC125 PIC12401 COC124 PIC12801 COC128
PIC1250 PIC12402 PIC12802
GND
3V3A
5V
2V5
PIU1503
PIU1501
COU15
U15
RT8293B
SW
BOOT
1
VIN
PIU1506
PIU1505
5
3
EN
2
PIU1502
7
PIU1507
SS
8
FB
6
COMP
COR1 9
VIN_SW
6
C114
2N2
PIC1401 COC114
PIC1402
PIR1 902
PIR1 901
VIN_A
GND
EN
ST1S06
COU18
U18
PIU1804
4
PIU1805
5
PIU1806
EN
VIN_A
PIU1802 PIU1807
GND
VIN_SW
PIU1605
6
PIU1606
5
4
PIU1604
ST1S06
COU16
U16
PIU1602 PIU1607
COD2
D2
PID201
PIL401
PIL201
100N
PID202
PIR1 702
PIR1 701
PIR12 02
PIR12 01
COR131
PIR12802
PIR12801
PIR13102
PIR13101
PIR12 02
PIR12 01
PIR12602
PIR12601
GND
COR126
COR12
PIL302
GND
COR128
PIL402
GND
COR121
COR1 7
PIL202
2U2
COL3
L3
2U2
COL4
L4
6U8
COL2
L2
C113 1N4148W
PIC1 301 COC113
PIC1 302
PIU1803
3
PIU1801
1
PIU1601
3
PIU1603
PIL301
1
FB
SW
FB
SW
VREF = 0.8V
VOUT = 0.8 x a1 + 18/5.6) = 3.37V
NL3V30PG
3V3_PG
GND_4
GND_9
PIU1508
4
9
PIU1504
PIU1509
GND
5V
C122
4U7
PIC1201 COC122
PIC120
GND
5V
C119
4U7
PIC1 901 COC119
PIC1 902
GND
GND
VREF = 0.8V
VOUT = 0.8 x a1 + 4.7/18) = 1.01V
C115
22U
C116
GND
PIR12902
PIR12901
GND
COR129
COC123
C123
22U
3V3
22U
PIC1501 COC115 PIC1 601 COC116
PIC1502 PIC1 602
GND
PIC12301
PIC1230
GND
1V0
C120
22U
COR1 5
COD4
D4
PIR1 502
5V
PIR1 501
PID402
PID401
PIR130 2
GND
COR130
PIR130 1
PID702
PID701
GND
COD7
D7
GND
PIC1201 COC120 PIR12302
COR123
PIC120
PIR12301
GND
PIGND301
PIGND101
PIGND201
PIGND401
PIGND501
PIGND601
PIGND701
GREEN
PI2V501
PI12V01
PI3V3A01
PI5VA01
PI1V001
PI5V01
PI3V301
GREEN
CO5V
5V
CO3V3
3V3
CO1V0
1V0
CO5VA
5VA
CO3V3A
3V3A
CO2V5
2V5
CO12V
12V
3V3
VIN
COU17
U17
NCP303LSN30
COU20
U20
INPUT
3
ENIN
ADM1085
1
PIU1701
PIU1703
GND
CD
2
PIU2002
5
PIU2005
3
PIU2003
3V3_PG
GND
C129
1N
PIC12901 COC129
PIC1290
GND
PIR12702
PIR12401
PIR12402
1V0
COR124
COR127
PIR12701
GND
5V 3V3 1V0 5VA3V3A2V5 12V
1
PIR13202
3V3
PIR13201
GND
3V3
COR132
PIU2001
4
PIU2004
6
4
PIU1704
PIU1706
NC
RST_OUT
100N
C118
PIC1801 COC118
3V3
PIC1802
GND
VCC
ENOUT
5
PIU1705
2
PIU1702
3V3_PG
PIR12501
PIR12502
3V3
COR125
C121
15P
PIC1201 COC121
PIC120
GND
POPOR
POR
Sheet Name
xC-200-MC-AUDIO-Power.SchDoc
of
02/04/2015
3
Size
A3
Sheet
Date
CEXT
GND
10K
1K
1K
R117
R121
COJ6
J6
PJ-002A
1
PIJ601
3
PIJ603
2
PIJ602
GND
5V
COFB4
FB4
PIFB401
C126
4U7
PIC12601 COC126
PIC1260
GND
3V3
120R
500mA
PIFB502
C133
5
PIU2105
4
PIU2104
COGND1
GND1
COGND2
GND2
COGND3
GND3
COGND4
GND4
2K2
62K
11K8
COGND5
GND5
COGND6
GND6
COGND7
GND7
R132
Project Name
xCORE-200 MC AUDIO
10K
COFB5
FB5
C132
PIC13201 COC132 PIC13 01 COC133
IN
OUT
C134
1U
PIC13401 COC134
PIC13402
3K9
10K
R128
R119
R115
R130
1K
R129
GND
R124
R127
PIFB501
C131
PIC1301 COC131
PIC13 02
47U
PIC1320
GND
1U
PIC1302
GND
4U7
GND
EN
COU21
U21
1
PIU2101
NC
2
PIU2102
GND
3
MIC5213
PIU2103
GND
GND
9
Rev
2V0
XM009539C
R125
Figure 30:
xCORE-200
Multichannel
Audio
Platform
schematic (3
of 9)
R123
18K
5K6
4K7
18K
R131
R122
R126
33K
GND
GND_PAD
2
7
GND
GND_PAD
2
7
20/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
C72
PIC7201 COC72
100N
POMCLK
MCLK
POLRCLK
LRCLK
POSCLK
SCLK
POSD1
SD1
POSD2
SD2
POSD3
SD3
POSD4
SD4
PODSD5
DSD5
PODSD6
DSD6
PIR8501
COR83
R83PIR8301
COR84
R84PIR8401
COR85
R85
R87B PIR8702
2
R87C PIR8703
3
R87D PIR8704
4
COR87A
COR87B
COR87C
COR87D
R87A PIR8701
1
R91D PIR9104
4
R91C PIR9103
3
R91B 2
PIR9102
COR91A
COR91B
COR91C
COR91D
R91A PIR9101
1
2V5
C64
C65
PIC6401 COC64 PIC6501 COC65
PIC6502
100N
PIC6402
GND
PIU13011
PIU1308
9
PIU1309
6
PIU1306
7
VLC
RST_N
SCL
SDA
AD0
DSD1
DSD2
DSD3
DSD4
DSD5
DSD6
DSD7
DSD8
DSD_SCLK
VLS
MCLK
LRCLK
SCLK
SDIN1
SDIN2
SDIN3
SDIN4
CS4384
COU13
U13
PIU13014
PIU13013
1U
GND
PIR8302220R
470R
43
19
PIU13019
15
PIU13015
16
18
17
PIU13017
PIU13016
42
PIU13042
PIU13044
5 0R 3
PIR8905 PIU1303
6 0R 2
PIR8906 PIU1302
0R 1
PIR89077 PIU1301
0R 48
PIR89088 PIU13048
47
PIU13047
46
PIU13046
45
44
0R
PIR9302
PIU13045
PIU13043
8
11
13
14
PIR8502470R
PIU1307
PIR8708
8 470R
7 470R
6 470R
5 470R
PIR8707
PIR8402
PIR8705
4
PIR8904
3
2
PIR8903
PIR9301
COR93
R93
1
PIR8901
PIR8902
PIR8706
R89D
R89C
R89B
COR89A
COR89B
COR89C
COR89D
R89A
5 470R
PIR9105
6 470R
PIR9106
7 470R
8 470R
PIR9107
PIR9108
3V3A
GND
PIU13018
PIU1304
PIU1305 PIU130 PIU1302 PIU130
PIU1302
C66
PIC6 01 COC66
5VA
C67
PIC6701 COC67
1U
PIC6702
100N
PIC6 02
GND
NLAOUT1
AOUT1
GND
39
PIU13039
NLAOUT2
AOUT2
PIU13038
34
NLAOUT4
AOUT4
NLAOUT5
AOUT5
NLAOUT6
AOUT6
29
28
PIU13028
NLAOUT7
AOUT7
PIU13025
24
22
41
PIU13024
PIU13022
PIU13041
20
PIU13020
21
PIU13021
PIU13040
100N
C78
1U
C79
PIC7801 COC78 PIC7901 COC79
PIC7802 PIC7902
NLAOUT8
AOUT8
25
PIU13029
NLAOUT3
AOUT3
38
AOUT2
PIU13035
AOUT1
AOUT3
PIU13034
35
AOUT4
AOUT5
AOUT6
AOUT7
AOUT8
MUTEC2
MUTEC1
FILT+
VQ
TST_OUT
GND
C80
47U
C81
GND
100N
PIC80 1 COC80 PIC810 COC81
PIC80 2 PIC8102
GND
COR98
R98
PIR9802
C85
PIC8501 COC85
2N2
C87
PIC8701 COC87
AOUT1
AOUT2
AOUT3
AOUT4
AOUT5
35RAPC7J
AOUT6
J4B
2
PIJ402
3
1
PIJ403
PIJ401
GND
COC62
PIR80 2
PIR7901
COR79
R79
562R
PIR7902
C63
PIC6301 COC63
PIC6302
2N2
C69
PIC6901 COC69
PIC6902
2N2
PIR80 1
COR81
R81
PIR8602
C71
PIC710 COC71
GND
PIR8102
GND
PIR8101
562R
COR86
R86
562R
GND
COR80
PIC6201 PIC6202
COC68
PIR8202
PIR8201
PIR8601
GND
COR82
PIC6801 PIC6802
COC70
PIR8 02
COR94
R94
562R
COR96
R96
562R
PIR9402
PIR9602
PIC7401
2N2
COC74
C74
2N2
PIC7402
C76
C83
2N2
4
7
8
35RAPC7J
COJ3A
COJ3B
J3A
PIJ304
PIJ308
PIJ307
6
5
PIJ305
35RAPC7J
J3B
PIJ306
GND
2
PIJ302
1
3
PIJ303
35RAPC7J
COJ4A
COJ4B
J4A
PIJ301
GND
4
PIJ404
5
6
7
PIJ407
8
PIJ408
PIJ406
PIJ405
GND
Project Name
xCORE-200 MC AUDIO
Sheet Name
xC-200-MC-AUDIO-DAC.SchDoc
of
02/04/2015
4
Size
A3
Sheet
Date
GND
PIC8302
PIC8301 COC83
GND
2N2
PIC7601 COC76
PIC7602
GND
PIR9002
PIC7102
COR90
R90
PIR8 01
PIR9001
PIR9401
562R
GND
PIR9201
PIR9202
GND
COR88
PIC7001 PIC7002
COC73
PIC7301 PIC7302
COR92
PIR9501
PIR9502
GND
COR95
PIR9601
GND
PIR9702
PIR9701
GND
COR97
PIC8201 PIC8202
COC82
PIC7501 PIC7502
COC75
R92
3V3A
PIC720
GND
PODSD8
DSD8
PODSD7
DSD7
PODAC0RST0N
DAC_RST_N
POSCL
SCL
POSDA
SDA
I2C ADDR = 0011000[R/W]
C77
100N
GND
PIR9801
562R
PIR10002
47K
22U
R80
22U
R82
22U
R88
22U
47K
47K
C62
C68
C70
C73
C75
C82
47K
47K
47K
M4aTST)
10
22U
R95
22U
R97
M3aTST)
12
32
VA
4
VD
GND
5
GND
COC84
PIR9 02
562R
PIC8502
COR99
COR100
R100
GND
PIR10001
PIR9 01
PIR10102
GND
PIC8601 PIC8602
COC86
PIC8401 PIC8402
C84
C86
PIC7 01 COC77
PIC7 02
GND
AOUT7
AOUT8
PIC8702
2N2
PIR10 1
COR101
GND
9
Rev
2V0
XM009539C
GND
Figure 31:
xCORE-200
Multichannel
Audio
Platform
schematic (4
of 9)
47K
47K
22U
R99
22U
R101
GND
31
21/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
COJ2A
COJ2B
J2A
4
7
8
PIR4702
PIR4701
COR11
PIR1 02
PIR1 01
GND
5VA
C4
100N
COC6
C6
COR12
PIR1202
PIR1201
C11
3
2
COU2A
COU2B
U2A
PIU202
PIU203
C12
2
3
COC3
C3
PIU408
5VA
PIU40
GND
PIR201
COR10
COR2
R2
COR28
6
PIR2201
PIR4002
91R
R58
COR58
6
PIR402
U4B
91R
6
COC8
C8
PIR601
470P
PIC802
7
PIU207
LMV722
COC20
C20
C54
COC54
PIC5402
COR6
R6
634R
PIR4202
PIR602
COR16
R16
91R
PIR1602
PIR7002
91R
R34
COR34
PIR2402
PIR5202
PIR3401
634R
COR24
R24
PIR1601
PIR2401
7
PIU407
634R
R52
COR52
91R
91R
R70
COR70
PIR6002
PIR7001
634R
COR60
R60
PIR5201
PIR6001
7
LMV722
PIU907
470P
R42
COR42
LMV722
PIR4201
7
470P
PIC2001 PIC2002
PIC801
PIR2202
PIU406
5
PIU405
COC42
C42
PIC5401
LMV722
PIU707
470P
PIC4201 PIC4202
PIR5802
PIU906
U9B
COR22
R22
PIR2002
5
PIU205
PIU206
U2B
91R
COR4
R4
PIR202
6
5
PIR5801
PIR5602
PIU705
PIU706
U7B
91R
COR40
R40
PIR2801
PIR2802
634R
COR20
R20
PIR401
634R
PIR10 2
PIR10 1
PIR2001
COC15
C15
1
PIR6401
PIR6402
634R
R56
COR56
PIR4001
PIR3802
PIU401
PIR4601
PIR4602
634R
COR38
R38
LMV722
PIR3801
C37
COC37
470P
1
PIU701
COR46
COR64
PIR5601
C49
COC49
1
LMV722
PIU901
470P
PIC4901 PIC4902
LMV722
470P
PIC1501 PIC1502
LMV722
1
PIU201
470P
PIC301 PIC302
5VA
PIU208
PIU204
GND
PIU403
PIU402
COU4A
COU4B
U4A
100U
PIC1 0 COC11 PIC120 COC12
PIC120
GND
PIR30 2
C29
PIU704
GND
PIU908
5VA
PIU904
GND
5
PIU905
PIR3402
NLAIN10
AIN1+
GND
PIJ106
PIJ105
PIJ108
COJ1A
COJ1B
J1A
4
PIJ104
7
PIJ107
8
5
6
35RAPC7J
2
3
PIJ103
1
GND
PIJ101
PIJ102
J1B
35RAPC7J
NLAIN20
AIN2-
NLAIN20
AIN2+
NLAIN10
AIN1-
AIN3+
NLAIN30
AIN3NLAIN30
NLAIN40
AIN4+
AIN4NLAIN40
COR44
R44
PIR802
PIR801
PIR6201
PIR6202
5VA
C2
100N
PIC201 COC2
PIC20
COC5
C5
PIR1702
PIR1301
PIR1302
1U
5VA
COR13
COR17
PIR1701
GND
C14
100N
PIC1401 COC14
5VA
PIC1402
COR9
PIR902
PIR901
COU1A
COU1B
U1A
2
PIU102
3
PIU103
C10
PIR2701
PIR2702
GND
100U
PIC4 02
PIC5602
2
100U
COC1
C1
1
PIR101
PIU101
LMV722
COR7
COR1
R1
5
PIR2101
PIR3902
R57
COR57
91R
U8B
5
PIR302
6
COC7
C7
PIR4101
PIR501
7
COR5
R5
634R
PIR502
COR14
R14
91R
PIR1402
PIR6802
91R
COR32
R32
PIR2302
PIR5002
PIR3201
634R
COR23
R23
PIR1401
PIR2301
7
PIR4102
COR50
R50
91R
91R
R68
COR68
PIR5902
PIR6801
634R
R59
COR59
PIR5001
634R
COR41
R41
LMV722
PIU307
470P
PIC1901 PIC1902
COC19
C19
LMV722
PIU107
470P
PIC701 PIC702
PIR2102
PIU306
U3B
91R
5
PIU305
C41
COC41
7
PIR5901
7
LMV722
PIU807
470P
PIC5301 PIC5302
C53
COC53
LMV722
PIU607
470P
PIC4101 PIC4102
PIR5702
PIU805
PIU806
6
COR21
R21
PIR1902
PIU105
PIU106
6
U1B
91R
COR3
R3
PIR102
6
5
PIR5701
PIR5502
PIU605
PIU606
U6B
91R
R39
COR39
PIR2501
PIR2502
634R
COR19
R19
PIR301
634R
PIR702
PIR701
COR25
PIR1901
COC13
C13
1
LMV722
COR37
R37
PIR6101
PIR6102
634R
R55
COR55
PIR3901
634R
PIR4302
PIR3702
PIU301
470P
PIC1301 PIC1302
5VA
PIU308
PIU304
GND
PIR3701
COC34
C34
PIC3401 PIC3402
470P
1
PIU601
LMV722
COR43
PIR4301
COR61
PIR5501
C47
COC47
1
LMV722
PIU801
470P
PIC4701 PIC4702
5VA
PIU80
GND
PIU804
470P
PIC101 PIC102
5VA
PIU108
PIU104
GND
PIU302
3
C26
PIU303
PIC2602
PIU604
GND
100U
GND
PIU608
5VA
GND
2
3
C56
PIU803
PIU802
U8A
COU8A
COU8B
100U
GND
PIR6302
COU3A
COU3B
U3A
C9
COR27
100N
PIC901 COC9 PIC10 1 COC10
PIC902 PIC10 2
COC17
C17
PIR3102
PIR3101
C25
100N
PIC2501 COC25 PIC2601 COC26
PIC250
PIR3502
2
3
C44
PIU603
PIU602
COU6A
COU6B
U6A
PIR3501
PIR4501
PIR4502
GND
COR45
GND
COR35
COR31
5VA
1U
PIC1702 PIC1701
GND
GND
PIC502 PIC501
GND
PIR2602
PIR2601
GND
C35
C39
COC39
PIR4902
PIR4901
PIR5302
C43
PIC4302
COR63
PIR6301
100N
PIC5 01 COC55 PIC5601 COC56
PIC5 02
C55
100N
GND
PIC4301 COC43 PIC4 01 COC44
PIR5301
5VA
C48
100N
PIC4801 COC48
PIC4802
GND
PIR6702
PIR6701
PIR7102
PIR7101
GND
COR71
COR67
5VA
1U
PIC5102 PIC5101
C51
COC51
GND
COR53
COR49
5VA
1U
PIC3902 PIC3901
GND
100N
PIC3501 COC35
PIC3502
5VA
COR26
GND
COR8
PIR4 02
COR62
GND
PIR4 01
R8
GND
R9
GND
634R
8
V+
V-
PIC401 COC4
PIC402
GND
PIC601
PIR1502
PIR1501
PIC1 02
PIR1802
GND
1U
PIR30 1
100U
GND
PIU708
5VA
PIC3701 PIC3702
C28
2
U7A
COU7A
COU7B
PIU702
3
100U
COC46
C46
PIU703
PIC4601
100U
634R
8
V+
V-
100N
PIC2801 COC28 PIC2901 COC29
PIC2802 PIC2902
COR30
100N
PIR1801
5VA
C16
100N
PIC160 COC16
PIC1602
PIR3601
PIR3602
PIR3 01
PIR3 02
5VA
COR33
COR36
GND
PIR4802
GND
PIC1802 PIC1801
GND
COC18
C18
GND
COR18
COR15
1U
5VA
PIC602
PIR2902
PIR2901
COC40
C40
GND
COR29
5VA
C38
100N
PIC3801 COC38
PIC3802
GND
1U
PIC4602
PIR4801
100N
2
3
C58
PIU903
PIU902
U9A
COU9A
COU9B
COC45
C45
GND
PIR6 02
PIR6 01
C57
100N
PIC5701 COC57 PIC5801 COC58
PIC5702 PIC5802
COR66
PIC4501
COR48
100K
PIC4502
GND
PIC4002 PIC4001
PIR5401
PIR5402
PIR5101
PIR5102
5VA
COR51
COR54
GND
5VA
C50
100N
PIC50 1 COC50
PIC50 2
COC52
C52
1U
PIC5202 PIC5201
GND
PIR6902
5VA
PIR6901
PIR7202
PIR7201
3K3
PIJ204
PIJ207
6
PIJ208
5
PIJ205
GND
R47
GND
COR47
PIR6502
PIR6501
COR69
COR72
GND
PIR3202
NLAIN50
AIN5+
NLAIN50
AIN5-
C30
100N
C31
1U
C32
100N
C33
PIC3201 COC32 PIC3 01 COC33
PIC320 PIC3 02
GND
NLAIN60
AIN6+
NLAIN60
AIN6-
220U
PIC30 1 COC30 PIC310 COC31
PIC30 2 PIC3102
GND
NLAIN70
AIN7+
AIN7NLAIN70
AIN8+
NLAIN80
AIN8NLAIN80
AIN1+
AIN1-
AIN2+
AIN2-
AIN3+
AIN3-
AIN4+
AIN4-
AIN5+
AIN5-
AIN6+
AIN6-
AIN7+
AIN7-
AIN8+
AIN8-
C21
C22
PIC210 COC21 PIC2 01 COC22
5VA
PIU5015
PIU5044
PIU5043
PIU5046
PIU5045
PIU5012
PIU5011
PIU5014
PIU5013
PIU502
PIU501
PIU5048
PIU5047
PIU508
PIU507
PIU505
PIU506
AIN8+
AIN7-
AIN7+
AIN6-
AIN6+
AIN5-
AIN5+
AIN4-
AIN4+
AIN3-
AIN3+
AIN2-
AIN2+
AIN1-
AIN1+
GND
VQ
REF_GND
FILT+
1U
PIC2 02
100N
PIC210
GND
PIU5016
AIN8-
6
GND
PIU5017
18
17
16
15
44
43
46
45
12
11
14
13
2
1
48
47
8
7
5
PIU5018
U5
COU5
CS5368
PIU504 PIU509
PIU503 PIU501 PIU5019 PIU5029 PIU5032
GND
PIU503
33
C23
3V3A
C24
PIC2301 COC23 PIC2401 COC24
35
39
PIU5039
40
PIU5040
36
PIU5036
37
PIU5037
38
PIU5038
41
42
34
28
PIU5028
PIU5034
PIU5042
PIU5041
PIU5035
100N
PIC240
1U
PIC230
GND
VLC
GND
SCL
SDA
OVFL_N
AD1
AD0
RST_N
MDIV
CLKMODE
VLS
30
PIU5030
27
31
26
24
25
23
PIU5027
PIU5031
PIU5024
PIU5026
GND
5VA
PIU5020
20
PIU5023
PIU5025
VX
PIU5021
22
100N
PIC2702
C27
PIC2701 COC27
3V3A
GND
POSCL
SCL
OVFL_N
POOVFL0N
POSDA
SDA
POADC0RST0N
ADC_RST_N
I2C ADDR = 1001100[R/W]
SDOUT1
POSDOUT1
SDOUT2
POSDOUT2
SDOUT3
POSDOUT3
POSDOUT4
SDOUT4
POLRCLK
LRCLK
MCLK
POMCLK
SCLK
POSCLK
Rev
2V0
100N
C36
PIC3601 COC36
PIC3602
3V3A
9
GND
of
Sheet Name
xC-200-MC-AUDIO-ADC.SchDoc
5
02/04/2015
Sheet
Size
A2
Project Name
xCORE-200 MC AUDIO
Date
GND
GND
XTI
PIU5022
21
XTO
SDOUT1/TDM
SDOUT2
SDOUT3/TDM_N
SDOUT4
LRCLK/FS
SCLK
MCLK
VD
4
9
VA
VA
PIJ206
35RAPC7J
2
GND
3
PIJ203
1
PIJ201
PIJ202
J2B
35RAPC7J
COR65
GND
GND
XM009539C
GND
GND
GND
GND
GND
3
10
19
29
32
634R
8
V+
V4
R7
634R
R61
R43
R25
634R
8
V+
V-
R26
4
8
V+
4
V-
100K
3K3
R31
R35
R45
3K3
3K3
4
3K3
3K3
100K
R63
100K
100K
R27
100K
R13
R17
3K3
3K3
R67
R71
100K
R62
634R
100K
R49
R53
100K
634R
R28
634R
8
V+
V4
R10
R64
8
V+
V4
R29
4
8
V+
V4
3K3
3K3
3K3
R46
100K
3K3
R33
GND
Figure 32:
xCORE-200
Multichannel
Audio
Platform
schematic (5
of 9)
R66
100K
R12
3K3
3K3
100K
R30
100K
R15
R18
3K3
R11
100K
R65
R36
R48
100K
R51
R54
100K
3K3
R69
R72
22/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
COX1
X1
POPLL0SYNC
PLL_SYNC
POI2C0SDA
I2C_SDA
COU11
U11
PL611-01-N12
VDD
PIU1103
3V3
NL24M
GND
9
8
COR78
R78
COU10
U10
CLK_IN
PIR7801
3V3
1
4
3V3
GND
2
PIU1002
PIU1004
3
PIU1003
PIU1001
POPLL0SELECT
PLL_SELECT
C59
100N
PIC5901 COC59
PIC5902
VD
CLK_OUT
PIR7702
GND
AUX_OUT
COR77
R77
33R
PO24M0CLK
24M_CLK
PIR7701
GND
SDA/CDIN
SCL/CCLK
AD0/CS_N
XTO
XTI/REF_CLK
33R
CS2100-CP
7
PIU1007
PIU1006
6
PIU1008
PIU1009
10
PIU10010
PIU1005
5
I2C ADDR = 1001110[R/W]
CLK0
2
GND
PIU1102
4
3
FSEL
5
PIU1105
NC
6
PIU1104
7
PIU1107
PIU1106
CLK1
GND
XOUT
8
XIN
PIU1108
1
PIU1101
PIR7802
COR73
R73
10K
3V3
1
C60
5
PIU1205
4
PIU1204
2
PIU1202
PLL LOCK
GND
Q
VCC
100N
PIC60 2
PIR7302
PIC60 1 COC60
PIR7301
GND
S
I0
I1
0
GND
COU12
U12
6
PIU1206
3
PIU1203
1
PIU1201
NC7SZ157
PIR1 601
PID502
PID501
PIR1 602
3V3
COR1 6
COD5
D5
GREEN
1K
POI2C0SCL
I2C_SCL
PIX102
3V3
C61
R116
POMCLK0FSEL
MCLK_FSEL
PIX101
24M
ABLS
100N
3V3
NLMCLK0OUT
MCLK_OUT
GND
COR75
R75
PIR7501
COR74
R74
PIR7401
PIR7602
33R
PIR7502
PIR7402
33R
33R
COR76
R76
PIR7601
POMCLK0XCORE
MCLK_XCORE
POAUDIO0MCLK
AUDIO_MCLK
POMCLK0SPDIF
MCLK_SPDIF
Project Name
xCORE-200 MC AUDIO
of
Sheet Name
xC-200-MC-AUDIO-Clock.SchDoc
6
02/04/2015
Sheet
Size
A4
9
Rev
2V0
XM009539C
Date
Figure 33:
xCORE-200
Multichannel
Audio
Platform
schematic (6
of 9)
PIC610 COC61
PIC6102
GND
24M
23/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
COC157
C157
PIC15801
COC158
C158
COC164
C164
PIC16401
1U
NLPSU0EN
PSU_EN
SW
BOOT
PIU2503
PIU2501
1
VIN
3
EN
COU25
U25
RT8293B
PIU2505
5
PIU2506
6
FB
C161
PIC1601 COC161
2N2
PIC15901
PIC15902
COR157
COD8
D8
PID801
PID802
COR153
R153
33K
PIL502
PIR15301
6U8
COL5
L5
COC159
C159 1N4148W
PIR15302
PIL501
100N
PIR15702
PIR15701
PIR15902
PIR15901
22U
GND
PIC16302
C163
5V_OUT
C162
22U
PIC16201 COC162 PIC16301 COC163
PIC1620
GND
VCC
Y
GND
5
PIU3805
2
4
PIU3804
PIU3802
COR151
COD28
D28
GREEN
USB_SEL0
USB_SEL1
3V3
PIR15102
PIR15101
PID2802
PID2801
5V_OUT
1U
C169
PIR20 02
COU27
U27
PIU2702
2
FAULT_N
PIU2706
IN
ISET
OUT
PIU2708
4
1
3
IN
PIU2704
ON_N
OUT
GND
8
COTP1
PIR19501
PIR19502
3V3
COR195
NLI0OVR0N
I_OVR_N
4U7
C191
VBUS_OUT
C190
PIC1902
PIR19702
PIU2801
PIR19701
3V3
COR197
PIR19602
GND
PIR19801
PIR19802
PIR19601
VBUS_OUT
COR196
COR198
C189
33P
PIC18901 COC189
PIC18902
2PIU2802
PIU2803
COTP2
PIT 201
OVERV_N
100N
C167
PIC16701 COC167
PIC16702
TL431A
COU28
U28
GND
Trip Point = a10+11)/10 x 2.5V = 5.25V
GND
B
A
6
SCL
RST
PIU3704
PIU3705
2
4
Y
VCC
PIU3702
8
PIU3008
PIU3001
1
PIU3004
3
4
5
PIU3005
PIU3003
VCC
GND
NC_3
NC_4
NC_5
PSU_EN
3V3
C170
100N
GND
PIC1702
PIC1701 COC170
3V3
GND
GND
5
VBUS Out Overvoltage Protection
C
COU37
U37
PIU3701
3
PIU3703
NC7SZ11
PIU3706
1
VBUS Out Logic
VBUS_OUT_EN
I_OVR_N
NLOVERV0N
OVERV_N
3V3
PIU3007
Size
A3
Date
02/04/2015
Sheet
7
of
Sheet Name
xC-200-MC-AUDIO-USB.SchDoc
Project Name
xCORE-200 MC AUDIO
COU30
U30
APPLE_CP_2.0C
NLSCL
SCL PIU3006
6
COMECH1
MECH1
Screw M2x5
COMECH2
MECH2
Screw M2x5
COMECH3
MECH3
Nut M2
COMECH4
MECH4
Nut M2
COMECH5
MECH5
Washer M2
COMECH6
MECH6
Washer M2
7
NLSDA
SDAPIU3002
2
POSDA
SDA
SDA
POSCL
SCL
GND
100N
PIC1901 COC190 PIC1901 COC191
PIC1902
PIR160 2
PIR160 1
PIR16102
COR161
GND
PIR16 01
COR160
3V3
GND
PITP10
NLVBUS0OUT0EN
VBUS_OUT_EN
GND
PIC17201 PIC17202
COC172
POVBUS0OUT0EN
VBUS_OUT_EN
MIC2042
7
PIU2707
PIU2701
GND
Ilim amin) = 2.908A
COR20
PIR20 1
VBUS_OUT
USB_L_D_N
POACC0DETECT
ACC_DETECT
USB_L_D_P
NLACC0PWR
ACC_PWR
6
PIU2703
PIU2705
5
VBUS OUT Current Limit
PIR19 02
PIR19 01
GND
COR19
C168
GND
100N
PIC16801 COC168 PIC16901 COC169
PIC16802 PIC16902
PIR150 2
PID2901
PIR15401
PID2902
PIR15402
GND
COR154
COD29
D29
GREEN
COR150
PIJ1202
PIR16402
PIR16401
1K
2
7
PIU2502
SS
PIU2507
4
9
8
PIU2508
PIU2509
PIU2504
COMP
PIC1602
PIR15202
COR159
COU38
U38
A
B
C
PIR150 1
PID902
PID901
PIJ1203
4
5
COR164
COMECH7
MECH7
Screw M1.6x5
COMECH8
MECH8
Screw M1.6x5
COMECH9
MECH9
Nut M1.6
COMECH10
MECH10
Nut M1.6
COMECH11
MECH11
Washer M1.6
COMECH12
MECH12
Washer M1.6
R197
1
PIC15701
PIC16402
GND_4
GND_9
COR152
PIR15201
GND
GND
1
6
PIU3806
3
PIU3803
PIU3801
3V3
USB_SEL0
USB_SEL1
COD9
D9
GREEN
GND
1
PIJ1201
2
PIJ1204
1
3
PIJ1205
2
4
3
5
PIJ1207
8
PIJ1208
7
6
PIJ1206
7
6
8
11K
10K
10K
12V
10U
C166
100N
PIC1601 COC166
PIC1602
FSUSB63
NLUSB0L0D0N
USB_L_D_N
NLUSB0L0D0P
USB_L_D_P
NLUSB0A0D0N
USB_A_D_N
NLUSB0A0D0P
USB_A_D_P
USB_B_D_N
USB_B_D_P
GND
Lightning Connector aForce Host)
TP2
R196
R198
PIC15802
GND
COU29
U29
5
6
PIU2905
PIU2906
7
8
PIU2907
PIU2908
9
PIU2909
10
PIU29010
GND
R151
1K
LEDS SHOW SELECTED USB PORT
COC171
C176
USB_A_D_N
USB_A_D_P
GND
PIC17101 PIC17102
VBUS_OUT
NC7SZ11
2
3
4
1
PIJ1001
PIJ1002
PIJ1003
PIJ1004
6
5
PIJ1005
PIJ1006
R200
10U
GND
PIU29012
3V3
HSD1HSD1+
HSD2HSD2+
HSD3HSD3+
COJ10
J10
VBUS
DM
DP
GND
S1
S2
PIJ1209
GND
9
9
118R
PIC15702
GND
GND
DD+
PIU2903
VBUS_IN
PIR20102
USB_A
COJ12
J12
R199
TP1
10K
10K
33K
12K
R195
R160
R161
GND
1
2
PIU2902
PIU2901
4
PIU2904 SEL[0]
11
SEL[1]
PIU29011
GND
COD30
D30
PID3001
COD31
D31
PID3101
C173
PIR20101
PIC17301 COC173
GND
COR201
PIC17302
100N
GND
USB A
100N
Vfb = 0.8V
Vout = 0.8 x a1 + 66/12) = 5.2V
PIR16202 PIR16302
VBUS Out Power Supply
NLUSB0SEL0
USB_SEL0
NLUSB0SEL1
USB_SEL1
COR1P6IR216C20O1R16PI3R16301
VBUS_OUT
PID3002
MBR120VLSFT
PID3102
MBR120VLSFT
1
PIJ1101
NLUSB0B0D0N
2
USB_B_D_N
PIJ1102
NLUSB0B0D0P
3
USB_B_D_P
PIJ1103
4
PIJ1104 POUSB0ID
USB_ID
5
PIJ1105
GND
VBUS
DD+
ID
GND
GND
1N
PIC17601 COC176
PIC17602
GND
C172
0R
R164
1K
1K
R154
R150
33K
USB MICRO B
100N
POUSB0D0N
USB_D_N
POUSB0D0P
USB_D_P
POUSB0SEL0
USB_SEL0
POUSB0SEL1
USB_SEL1
COJ11
J11
6
PIJ1106
7
PIJ1107
8
PIJ1108
9
PIJ1109
10
SH
SH
SH
SH
SH
SH
USB_MICROB
PIJ11010
11
PIJ11011
C175
1N
PIC17501 COC175
PIC17502
GND
9
Rev
2V0
XM009539C
100K
C171
R157
R159
3
Figure 34:
xCORE-200
Multichannel
Audio
Platform
schematic (7
of 9)
R201
12
VCC
GND
3
R152
100K
10K
10K
R162
R163
24/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
POLED0ROW00
LED_ROW_0
POLED0ROW01
LED_ROW_1
2
PIQ202
2
PIQ302
2
PIQ402
2
PIQ502
PIQ201
PIQ301
PIQ401
PIQ501
BSS84
COQ2
Q2
PIQ2033
BSS84
COQ3
Q3
3
PIQ303
BSS84
COQ4
Q4
3
PIQ403
BSS84
COQ5
Q5
PIQ5033
COR165
COD10
D10
COR16
COD14
D14
COR167
COD18
D18
COR168
COD22
D22
PIR16502
PIR16501
PID10 2
PID10 1
PIR16 02
PIR16 01
PID1402
PID1401
PIR16702
PIR16701
PID1802
PID1801
PIR16802
GREEN
GREEN
GREEN
GREEN
COR149
COD11
D11
COR158
COD15
D15
COR187
COD19
D19
COR190
COD23
D23
PIR14902
PIR14901
PID1 02
PID1 01
PIR15802
PIR15801
PID1502
PID1501
PIR18702
PIR18701
PID1902
PID1901
PIR190 2
PIR190 1
PID2302
PID2301
GREEN
GREEN
GREEN
GREEN
G
1PIQ701
PIQ703
COR15
COD12
D12
COR185
COD16
D16
COR18
COD20
D20
COR191
COD24
D24
PIR15 02
PIR15 01
PID1202
PID1201
PIR18502
PIR18501
PID1602
PID1601
PIR18 02
PIR18 01
PID20 2
PID20 1
PIR19 02
PIR19 01
PID2402
PID2401
COQ7
Q7
BSS138
D
PIQ702S
GND
470R
3V3
COR20PI3R203 2
PIR203 1
3V3
COR20PI4R20402
PIR204 1
3V3
COR20PI5R20502
PIR205 1
3V3
COR20PI6R206 2
PIR206 1
PIQ603
COQ6
Q6
BSS138
D
PIQ602S
470R
POLED0C 1
POLED0C 2
GREEN
GREEN
GREEN
GREEN
G
1PIQ801
PIQ803
COR156
COD13
D13
COR186
COD17
D17
COR189
COD21
D21
COR192
COD25
D25
PIR15602
PIR15601
PID1302
PID1301
PIR18602
PIR18601
PID1702
PID1701
PIR18902
PIR18901
PID2102
PID2101
PIR1920
PIR19201
PID2502
PID2501
COQ8
Q8
BSS138
D
PIQ802S
GND
POLED0C 3
GREEN
GREEN
GREEN
GREEN
G
1PIQ901
PIQ903
BSS138
COQ9
Q9
D
GND
PIQ902S
3
2
470R
470R
R156
R186
R189
R192
470R
470R
LED_COL_3
POLED0ROW02
LED_ROW_2
POLED0ROW03
LED_ROW_3
PIR16801
PID2 02
PID2 01
G
1PIQ601
GND
3
2
R155
R185
R188
R191
470R
470R
470R
LED_COL_2
R149
R158
R187
R190
470R
470R
470R
LED_COL_1
470R
POLED0C
3
2
3V3
C165
2U2
PIC16501 COC165
PIC16502
GND
Project Name
xCORE-200 MC AUDIO
8
of
02/04/2015
Sheet Name
xC-200-MC-AUDIO-LEDA.SchDoc
Sheet
Size
A4
9
Rev
2V0
XM009539C
Date
Figure 35:
xCORE-200
Multichannel
Audio
Platform
schematic (8
of 9)
3
2
R165
R166
R167
R168
470R
470R
470R
LED_COL_0
D
D
D
D
S
1 G
1 G
1 G
1 G
R203
10K
R204
10K
S
S
S
R205
10K
R206
10K
25/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
J17
COJ17
RCJ-017
2
1A
1B
PID2701
PID2702
R181
PIR18 02
PIR18 01
91R
GND
COR181
D27
COD27
GND
COC186
PIC18602
MIDI In
PIR17902
PIJ1306 PIJ1307 PIJ1308 PIJ1309
OE_N
COU33
U33
PIU3301
A
2
C179
3V3
PIR17801
PIR17802
PIR18202
1
PIJ1301
3
2
PIJ1302
PIJ1303
4
PIJ1304
5
PIU3305
5
PIJ1305
VCC
PIU3304
4
Y
PIU3303
PIR16901
COR169
R169
5
PIR16902
COR173
PIR17302
PIR17301
PIR17402
C
GND
Q
VCC
COR174
R174
75R
C
Q
D
PID2601
PID2602
COD26
D26
1
3
4
1
470R
500mA
C180
VO
VCC
6
PIU3206
4
PIU3204
5
3V3
GND
PIU3205
PIR17602
IN
VCC
1
PIR170 1
PIR170 2
3V3
COR170
GND
COJ15
J15
PIJ1502
PIR17 02
PIR17 01
GND
COR17
3V3
GND
100N
C178
PIC17801 COC178
PIC17802
GND
1
A
OE_N
COU31
U31
PIU3101
PIJ1803
2
5
PIU3105
4
PIU3104
VCC
Y
PIU3103
3V3
PIR17101
GND
3V3
OPT_RX
NLOPT0RX
470R
XXA
PIFB802
3
GND
0R
R183
COR183
100N
C185
PIC18501 COC185
PIC18502
PIR18301
GND
PIR18302
PIFB801
FB8
COFB8
J16
COJ16
RCJ-017
NC7SZ125
2
PIU3102
2
1A
1B
1C
PIJ1602
PIJ1601B
PIJ1601A
PIJ1601C
GND
C183
33P
PIJ1801
3
VCC
PIJ1802
GND
OUT
1
GND
GND
PIC18302
PIC18301 COC183
OPT_TX_PLT133
PIJ1503
3
PIJ1501
GND
PIR17502
PIR17601
220R
OPT_RX_PLR135
J18
COJ18
GND
COR176
2
MIDI Out
COMECH15
MECH15
SCREW, M2X6
COMECH16
MECH16
SCREW, M2X6
GND
220R
R175
COR175
100N
PIR17501
GND
PIC18202 PIC18201
COAXIAL_RX
POCOAXIAL0RX
COC182
DET
PIC1801 COC180
PIC1802
PIJ1409 PIJ1408 PIJ1407 PIJ1406
NC
K
A
COU32
U32
PC900V0NIPXF
PIU3201
2
PIU3202
3
GND
PIFB702
PIU3203
PIFB701
COFB7
FB7
PIJ1405
5
PIJ1404
PIJ1403
PIJ1402
2
PIJ1401
COJ14
J14
SDS-50J
3V3
3V3
GND
5
PIU3405
4
GND
3V3
PIU3505
5
VCC
PIU3504
2
PIU3502
4
Q
2
PIU3404
PIU3402
Q
GND
3V3
C184
COAX_RX
NLCOAX0RX
100N
PIC18401 COC184
PIC18402
PIR18002
GND
R180
COR180
33R
U36
COU36
FIN1002
PIU3605 PIR18001
3V3
1N4148W
220R
3V3
PIR17401
D
GND
C_N
COU34
U34
3
GND
3V3
6
PIU3406
D
3
CP
C_N
U35
COU35
PIU3506
D
1
3
PIU3503
PIU3601
3V3
PIU3602
GND
NC7SZ175
CP
6
NC7SZ175
PIU3403
1
PIU3401
C188
COC188
PIU3501
3V3
100N
PIU3604
3PIU3603
PIC1801
4
PIC1802
75R
COJ13
J13
SDS-50J
470R
R182
COR182
470R
R178
COR178
MCLK
GND
100N
C181
PIC1801 COC181
PIC1802
3V3
MCLK
NLMCLK
GND
100N
PIC17901 COC179
PIC17902
NC7SZ125
PIU3302
1
8
9
PIR18201
R173
COMECH13
MECH13
SCREW, M2X6
COMECH14
MECH14
SCREW, M2X6
PIR17201
PIR17202
3V3
COR172
GND
POOPTICAL0TX
OPTICAL_TX
POMCLK0DIO
MCLK_DIO
COAXIAL_TX
POCOAXIAL0TX
820R
R179
COR179
Digital Audio Out
PIR17901
3V3
C187
100N
PIC18701 COC187
PIC18702
R170
220R
POMIDI0TX
MIDI_TX
PIC18601
PIR18402
R177
10K
PIR18401
220R
7
6
C182
R172
COR184
GND
R176
9
8
100N
6
7
GND
1
2
PIJ1702
PIJ1701A
PIJ1701B
1C
PIJ1701C
GND
470R
GND
COR171
R171
220R
PIR17102
POMIDI0RX
MIDI_RX
OPTICAL_RX
POOPTICAL0RX
3V3
100N
C177
PIC1701 COC177
PIC1702
GND
9
of
Sheet Name
xC-200-MC-AUDIO-DIG.SchDoc
Sheet
02/04/2015
Project Name
xCORE-200 MC AUDIO
Size
A2
9
Rev
2V0
XM009539C
Date
Figure 36:
xCORE-200
Multichannel
Audio
Platform
schematic (9
of 9)
R184
C186
100N
26/28
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
PESD0603-240
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
19
27/28
RoHS and REACH
The xCORE-200 Multichannel Audio Platform complies with appropriate RoHS2 and
REACH regulations and is a Pb-free product.
The xCORE-200 Multichannel Audio Platform is subject to the European Union
WEEE directive and should not be disposed of in household waste. Alternative
requirements may apply outside of the EU.
XM009539C
xCORE-200 Multichannel Audio Platform 2v0 (MFi) Hardware Manual
20
28/28
Version history
Date
Description
2015/5/14
First board release, 2v0 hardware
Copyright © 2015, All Rights Reserved.
Xmos Ltd. is the owner or licensee of this design, code, or Information (collectively, the “Information”) and
is providing it to you “AS IS” with no warranty of any kind, express or implied and shall have no liability in
relation to its use. Xmos Ltd. makes no representation that the Information, or any particular implementation
thereof, is or will be free from any claims of infringement and again, shall have no liability in relation to any
such claims.
XM009539C