PARROT FC7100 Full connectivity module User Manual OEM 2012 149 FC7100 Datasheet v2 7

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Document Title	OEM-2012-149-FC7100 Datasheet-v2.7
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Document Author:	l.bouchelouk

PARROT PRODUCT DATASHEET
FC7100
Version 2.6
August 2014
Confidential information
Ref: OEM-2012-149
•
FC7100
Full connectivity module with
Android OS.
Bluetooth 4.0 LE – WiFi a/b/g/n
– GPS
LCD and Multi cameras
connectivity.
•
Technical Features:
• Dual LCD Management – 24 bits & 8 bits
ITU656
• Bluetooth 4.0 LE qualified module
• Wifi a/b/g/n – 2.4 & 5 GHz
• Built-in GPS receiver
• Standard single 3.3V supply
• Full connectivity (UARTs, I²C, SPI, GPIO,
USB) with external modules and chips:
MHL, HDMI, Ethernet, NAD, TV, Radio,
Mems sensors, Apple IC.
• 2*USB 2.0 High Speed – Host
• Ethernet interface
• Digital audio in and out - I²S
• Up to 3 cameras input – 8/16 bits ITU656
• Module dimensions 80.6*46.6*4.16 mm
• Automotive qualified AEC-Q100
• 2 x SDcard support – SDXC
The FC7100 platform provides a full API, to
access Parrot Libraries and to enhance
Android basic features.
DATASHEET
Confidential Information
External anten nas
The FC7100 employs the ANDROID OS.
The FC7100 is designed as an open platform
for any Android apps intended for a mobile
phone such as news, games, productivity,
multimedia, navigation.
The FC7100 embed all of the automotive
dedicated Parrot Libraries, native running on
Linux:
• USB devices and iPod, iPhone, with
database for metadata
WiFi b/g/n – BT 4.0 LE – GPS
Applications:
• Smartphone Android Apps platform
• Turn-by-turn GPS Navigation
• Internet access (through 3G USB dongle,
Bluetooth Dun, Pan, 3G+ module)
• HMI Display via LCD screen
• Telephony voice recognition
• Multimedia voice recognition
• Voice destination entry
• Message dictation
• USB & IPod management
• Multi cameras management with Driver
assistance use-cases implementation
(ADAS).
• Audio & Video Media sharing by UPnP
(DMC, DMR and DMS).
• Video stream reception and decoding
• Telephony & Audio streaming
• Mirrorlink & Miracast Terminal mode
•
Voice recognition for telephony features,
navigation destination entry or multimedia
selection
Local and connected voice recognition
engine
Bluetooth with a very high level of
compatibility with most of the phones
available on the market and phonebook
synchronization.
Parrot
P7
Cortex
A9
3900
MIPS
DDR 3
2x
4Gb
NAND
Flash
8 Gb
LCD // 24 bits
LCD or camera - // 8 bits
camera - // 8 bits
camera - // 8 bits
2 x USB 2.0
3 x SPI
3 x I²S in
4 x I²S out
4 x UART
2 x SDIO
2 x I²C
Ethernet (RGMII – MII)
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Ref: OEM-2012-149
Table of contents
Introduction ....................................................................................................................................... 4
FC7100 Overview ............................................................................................................................... 6
FC7100 technology ............................................................................................................................. 7
Vehicle Integration ........................................................................................................................... 11
4.1 FC7100 in a standalone ECU, interfaced to an entry headunit ................................................. 12
4.2 FC7100 in a standalone ECU, interfaced to a premium headunit ............................................. 13
4.3 Smart Display: the FC7100 is behind the LCD, in the same housing ......................................... 14
4.4 FC7100 integrated into the headunit ........................................................................................ 15
4.5 Rear Seat Entertainment network............................................................................................. 16
4.6 Components Proposal for Vehicle Integration .......................................................................... 17
5 FC7100 Hardware ............................................................................................................................. 18
5.1 Hardware overview ................................................................................................................... 18
5.2 Power supplies & management ................................................................................................ 24
5.3 External communication interfaces .......................................................................................... 25
6 Mechanical ....................................................................................................................................... 31
6.1 Outline dimensions.................................................................................................................... 31
6.2 Motherboard PCB layout ........................................................................................................... 32
6.3 Connectors ................................................................................................................................ 32
6.4 Thermal integration guidelines (TBC) ........................................................................................ 34
7 Available Tools ................................................................................................................................. 34
7.1 Workbench ................................................................................................................................ 34
8 Marking ............................................................................................................................................ 35
8.1 Module Marking ........................................................................................................................ 35
9 Caution for use ................................................................................................................................. 35
9.1 ESD Compliance ......................................................................................................................... 35
9.2 Safety ......................................................................................................................................... 35
9.3 Assembly.................................................................................................................................... 36
9.4 Drop ........................................................................................................................................... 36
10 APPROVAL / CERTIFICATIonS............................................................................................................ 37
10.1 Normative informations ............................................................................................................ 37
10.2 FCC and IC requirements for module application ..................................................................... 37
10.3 Japanese Radio Law and Japanese Telecommunications Business Law Compliance. .............. 39
DATASHEET
Confidential Information
3/39
Ref: OEM-2012-149
1 Introduction
Parrot has initiated the integration of Android in an automotive environment. Customers can now
use in their car all the features they use today in their smartphones: telephony, music, video,
Internet and connected Apps.
Parrot’s Next Generation FC7100 delivers the best features of today’s smartphones and integrates
them into the vehicle. FC7100 enables a true connected Infotainment open platform based on
Android. It is designed to run Android Apps in an automotive environment.
FC7100 brings also camera connectivity and automotive videos
videos treatments (bird view, rear camera,
front line detection, drowsiness detection).
FC7100 enhances the voice recognition interface with a hybrid voice recognition engine (local and
remote) allowing voice destination entry, messages dictation, multimedia
multimedia voice requests, apps
launching and Text-To-Speech (TTS).
Parrot has adapted the Android framework for automotive use cases. FC7100 embeds also the
standard suite of Parrot automotive libraries for connectivity (Bluetooth, USB, Wi-Fi, Voice
Recognition, and TTS etc.)
SDIO 3.0
WiFi Direct/Display
AP & STA
PCM
UART
+ GPS
I2S IN
Advanced
audio
interface
2 PCM
3 I2S in
2 I2S out
SPDIF in/out
SDIO
P7
2x CORTEX A9
GPS
NFC
26 MHz
Oscillator
DDR3
Video
Encoder/
Decoder
Nand Flash
GPU400
380MPix/s
2 x Analog
OUT
SPDIF
I2C x 2
SPI x 2
GPIO x 6
3900 Mips
2 x Analog
IN
ADC
I2S OUT
UART x 2
2.4 GHz 5 GHz
DAC
140 pin connector
WiFi 802.11 b/g/n
+ BT 4.0 Combo
chip
SDIO
RGMII (Ethernet)
Sub Modules:
NAD, GPS,
Tuner, CAN/LIN
Ctrl, Ethernet, ...
2 cameras
ITU 656
LVDS Ctrl
Advanced
video
interface
1 LCD
HDMI Ctrl
USB2.0 x 2
PHY
VBAT
P7MU
Supervisor
circuit
USB 2.0
Mass storage ,
MTP
iPod, etc.
USB modem
The combination of the Android framework and the Parrot Automotive libraries provides a complete
ready solution for vehicle manufacturers to launch a modern automotive infotainment platform
which is always connected (Internet, connected Apps) and remains up-to-date (ability to download
new Android Apps, update existing Apps, accessing to a customer app store etc.). The portfolio of
Android Apps will be now available to users in the vehicle.
With FC7100, Parrot provides a time-to-market solution to vehicle manufacturers:
Complete hardware and software automotive open platform
Reduced development time and engineering costs
Android ecosystem
Confidential Information
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Ref: OEM-2012-149
Built-in video hardware encoder and decoder, with Mali-400 GPU embedded allowing HD video
playback and best-in-class HMI
Multiple video interfaces and Ethernet connectivity for multiple cameras and multiple LCD
screens interface.
Confidential Information
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Ref: OEM-2012-149
2 FC7100 Overview
Internet TV & Radio
Music on demand
Internet access/3G+&4G
Tethering / Dongles
TTS &
Voice control
ASIC Design
Ethernet
networking
Telephony, Tasks, Contacts
AM/FM Tuner
Phase Diversity
Messaging
A/V Processing
Smart Link
& MHL
ADAS
LCD control
(landscape, portrait)
3D Navigation
Video Player
Digital Radio &
TV
Confidential Information
Multimedia Audio
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Ref: OEM-2012-149
3 FC7100 technology
•
Android 2.3 and 4.2
Linux based
Hardware independent
Large number of applications available
Web Browser included
Easy Specific HMI design with Android SDK
•
Bluetooth connectivity
Bluetooth Power Class 2 Radio
Embedded Bluetooth V4.0 Low Energy
Compatible with virtually all Bluetooth phones
Pairing and connection with all Bluetooth Devices: Phones, Smartphones, PDA …
Multiple user support : Up to 10 paired phones
Multiple connections (up to 3 devices connected at the same time)
Multiple profiles active simultaneously
Bluetooth Stack specification:
o HCI (Host Controller interface)
o L2CAP (Logical Link Control and Adaptation Protocol)
o RFCOMM ( Radio Frequency Communication)
o SDP (Service Discovery Protocol)
o OBEX (IrDA Object Exchange)
o Channel manager, AMP Manager, HCI AMP
o Enhanced Power Control
o Unicast Connectionless Data
o HCI Read Encryption Key Size command
Embedded Bluetooth profiles supported:
o Generic Access Profile
o Phone Management
o HFP 0.96 - 1.0 - 1.5
o HSP 1.0
o SAP (SIM Access Profile)
o Message Management
o MAP 1.0
o Phone Book
o PBAP 1.0
o SYNC 1.1 (IrMC SYNC over BT)
o SYNCML
o OPP 1.0 Server/Client (Vcard 3.0)
o GSM 07.07 AT Commands
o Nokia synchronization protocol
o Multimedia
o A2DP (Audio)
o SBC decoding
o MP3 decoding - optional
o AVDTP
o AVRCP1.0 / AVRCP1.3 / AVRCP1.4
o SPP 1.1
o BNEP, PAN
Confidential Information
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Ref: OEM-2012-149
FTP 1.0
Image transfer over OPP
DUNP 1.1
Software update over SPP
Secure Simple Pairing
•
Digital Signal Processing
Microphone(s), the module can manage two configurations:
o Single microphone
o Two microphones with AMS (Automatic Microphone
Microphone Selection): 1 for the
driver and 1 for the front seat passenger. The best microphone is
automatically selected during the call.
Noise Reduction (NR):
o Maximal NR is 25dB.
o Typical NR is 15dB.
o No musical noise
o No fluctuation of the residual noise level
o Automatic adaptation of the Noise Reduction to the Signal-to-noise ratio
(SNR) to keep the best voice quality in idle and remove more noise in noisy
conditions.
Acoustic Echo Cancellation (AEC):
o The level of echo attenuation, called ERLE is 45dB (measured according to
the VDA process).
o Comfort Noise feature so that the background noise is adjusted after AEC
algorithm, in order to keep it constant for enhanced communication
experience.
o Possibility to accept up to 100ms of delay in the speaker path for digital
amplifiers.
o Full duplex
Automatic Level Control (ALC):
o Different phones can have different Speaker volumes (up to 20dB of
difference). It adapts the signal level received from the phone to the target
level, quickly and precisely.
Equalizer :
o 7 bands equalizer for microphones and speaker paths.
Tuning :
o Car independent tuning if the microphone position and characteristics are
the same.
o Possibility to tune all parameters of the audio algorithms according to
Customer preferences.
Wideband speech:
o Support of HFP 1.6
o All speech processing algorithms will work @ 16 kHz.
•
External Bluetooth & WiFi Antenna diagnostic
Confidential Information
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Ref: OEM-2012-149
•
FC7100 Wi-Fi protocol summary
WLAN
802.11a - 5GHz WiFi 54Mbps
802.11b - 2.4GHz WiFi 11Mbps
802.11d - "World Mode"
802.11e - Quality Of Service
802.11g - 2.4GHz WiFi 54Mbps
802.11h - 5GHz interferrence avoid
802.11i - Security
802.11j - Japan Standard
802.11n - 2.4GHz WiFi 150Mbps
802.11r - Fast basic service set transition
802.11y - High Power WiFi
Access Point support
Ad-Hoc
Client
WPA2 / WPA
Coexistence
•
•
Yes
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Yes
No
on reset -firmware change
Yes
Yes
Yes
Bluetooth 4.0+LE use cases
The increased data transfer speed offered by BT4.0 LE enhances existing Bluetooth profiles
and use cases
Faster phonebook synchronization, especially contacts with photos.
Faster FTP Transfers
Faster PAN profile, for better internet connection
Due to the 2 radio connections available, it is possible to have several profiles at the
same time for instance phonebook synchronization + AD2P or HFP + PAN transfer
simultaneously
Pairing additional wireless devices such as remote controller, using Bluetooth Low
Energy.
Audio Player
Multi Sources (Line-In, USB, SD, iPod, iPhone, BT/Wi-Fi)
Call artists and albums by voice recognition
Multiple codecs and containers supported (External licences apply)
CODEC Audio
MPEG-1 Layer III (mp3), 32-320kbit/s, 32/44.1/48kHz, CBR/VBR, mono/stereo.
MPEG-2 Layer III (mp3), 8-160kbit/s, 16/22.05/24 kHz, CBR/VBR, mono/stereo.
LPCM, 8-48kHz, 8-32bit, mono/stereo.
FLAC, 1-48kHz, 4-24bit, VBR , mono/stereo.
AAC LC (MPEG-4 part III Audio), 8-48KHz, CBR/VBR,mono/stereo.
HE-AAC (aacPlus, MPEG-4 part III Audio), 8-48KHz,CBR/VBR, HE-AAC v1/2.
HD-AAC (MPEG-4 part III Audio), 8-48KHz, CBR/VBR,mono/stereo, Only lossy AAC layer.
WMA/WMA9, up to 48kHz, mono/stereo, CBR/ABR/VBR
Vorbis, q0 to q10 quality classes, 8-48kHz, VBR, mono/stereo.
AMR-WB
AMR-NB
Confidential Information
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Ref: OEM-2012-149
CONTAINER Audio
MP3.
ASF.
OGG.
WAV/WAVE.
MP4 (audio)
MP4A.
AAC.
Embedded MP3 decoder from Thomson Licensing (optional)
•
Built-in hardware video decoder
Multiple codecs and containers supported:
CODEC Vidéo
H.264/MPEG-4 AVC.
VP8
CONTAINER Video
MPEG-TS.
MP4.
3GP/3G2.
•
Built-in hardware video encoder
Encode H.264
MVC Stereo High
OpenMAX IL API support
•
Video interface
Up to 3 cameras interfaces : 1x 16 bits + 1x8bits or 3x up to 8 bits, 720p, ITU-601 or ITU656 protocols
Up to 2 LCD interfaces : 1 up to 24 bits and 1 x 8 bits, 1080p, ITU-601 or ITU-656 protocols
Several image signal processing:
o Chroma conversion,
o Scaling (with some limitations, see “Hantro HW Post-Processor API 1.1 User
Manual” §2.2.2),
o Rotation (nx90° + mirror)
o Deinterlacing, contrast and brightness control, image cropping YUV to RGB
conversion
Confidential Information
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Ref: OEM-2012-149
4 Vehicle Integration
The FC7100 module can be integrated behind the LCD display, inside the headunit, or in a standalone Electronic Control Unit (ECU) located somewhere in
the vehicle and connected to the vehicle bus (e.g. CAN).
Confidential Information
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Ref: OEM-2012-149
4.1
FC7100 in a standalone ECU, interfaced to an entry headunit
Confidential Information
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Ref: OEM-2012-149
4.2
FC7100 in a standalone ECU, interfaced to a premium headunit
HSPA
module
(option)
SDCard
USB
USB
GPS antenna
USB
Apple UC
USB Hub
USB
I2C
Mic
ITU
656
RF Signal
ITU
656
Composite
Video
Receiver
Composite
FC7100
ITU
656
Ethernet
PHY
Smart Head Unit
HDMI
Receiver
HDMI
ECU
CD, FM Tuner, Audio
Amplifier,
Touch screen
I2C
LVDS
serializer
LVDS
LVDS
out
MCU
RGB
SPI
LVDS
switch
(Vehicle Bus
Gateway)
LVDS
in
Audio
Confidential Information
Vehicle BUS
13/39
Steering wheel
control /
Keypad /
Knob
Ref: OEM-2012-149
4.3
Smart Display: the FC7100 is behind the LCD, in the same housing
Confidential Information
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Ref: OEM-2012-149
4.4
FC7100 integrated into the headunit
Confidential Information
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Ref: OEM-2012-149
4.5
Rear Seat Entertainment network
RGB
LVDS
LVDS
chip
I²C
USB
CD, FM tuner, Audio Amplifier
RGB
ADC chip
ADC chip
I²S
FC7100
ethernet
I²S
RSE system #1
RGB
LVDS
LVDS
chip
I²C
USB
RGB
ADC chip
ADC chip
I²S
FC7100
I²S
Head unit
RSE system #2
Confidential Information
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Control
Ref: OEM-2012-149
4.6
Components Proposal for Vehicle Integration
•
SPDIF transceiver : SIRUS LOGIC - CF8406
•
LVDS Serializer : Texas Instrument - DS90UB925Q
•
LVDS Serializer : Texas Instrument - DS90UB928Q
•
USB Hub : SMSC - USB82514
•
HDMI transceiver : Analog Device - ADV7611
•
Analog Video In : Texas Instrument - TVP5151
Confidential Information
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Ref: OEM-2012-149
5 FC7100 Hardware
5.1
Hardware overview
5.1.1 Main components
5.1.1.1 Processor
The FC7100 design is based on the Parrot ASIC P7, the latest dual core processor chip from Parrot. It
provides all the necessary features for advanced embedded multimedia processing:
• A Dual-core ARM Cortex-A9 processor operating up to 780MHz
• 128kB of internal RAM (@390MHz)
• 128kB of internal ROM (@195MHz)
• Off-chip DDR3 SDRAM memory controller
• NANDFLASH memory controller with 32 bit BCH
• Interfaces : SPI, SDIO, USB, parallel interface for LCD, PWM, UART, I²C, GPIO, I²S inputs and
outputs,
• 1 Ethernet controller
• Graphical Processing Unit, with video encoding and decoding
• Advanced Video Interface with LCD controllers, camera interfaces, video scalers and rotators,
planes blender.
5.1.1.2 Power management unit
The P7MU is the analog companion chip of the Parrot 7. It provides the necessary features for
powering a P7 with in addition several other analog functionalities:
• Programmable DC/DC converters
• LDO for DDR3 Termination
• LDO for DDR3 Ref
• 12-bit 1MS/s ADC
• 2 instances of USB PHY
5.1.1.3 Radio Frequency
FC7100 is proposed in a basic configuration with an external antenna for 2.4 GHz, allowing Bluetooth
4.0 Low Energy and WiFi 802.11 b, g & n communication.
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Ref: OEM-2012-149
With an additional 5.0GHz external antenna, WiFi 802.11 a & n can be added. Also GPS / Glonass
feature can be added, with a third external antenna.
5.1.1.4 Memory
The FC7100 basic Memory configuration is 8 Gbits NAND Flash and 8 Gbits DDR3 RAM. These
memory capacities can be increased
5.1.2 Hardware Architecture
* Many other display and record interface option are available.
See paragraph: 1.1.2.1 Display and record
record interface option.
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Ref: OEM-2012-149
5.1.3 Electrical Specifications
Conditions unless otherwise noted: Tamb.= 25°C; Vcc = 3v3_Main = 3V3
5.1.3.1 Power Pin
Parameter
3V3_MAIN (=Vcc)
3V3_PERM
VDD_ETH
VDD_SD1
VDD_SD2
Min
3,135
3,135
1,71
2,37
3,13
1,71
3,13
1,71
3,13
Typ
3,3
3,3
1,8
2,5
3,3
1,8
3,3
1,8
3,3
Max
3,6
3,6
1,89
2,62
3,46
1,89
3,46
1,89
3,46
Unit
Min
Typ
20
30
30
Max
TBD
TBD
TBD
Unit
µA
µA
µA
Min
Typ
280
Max
TBD
TBD
Unit
mA
900
980
1380
1140
74,8
5.1.3.2 Power Consumption
•
3v3 Permanent (3V3_PERM):
Feature
Deep Low power
Low Power
Run/Standby mode
•
3v3 MAIN:
Feature
Low Power
Run/Standby mode
BT Hands Free or Audio streaming mode
Wifi Streaming
Video rendering
Inrush Current
Peak current at startup (duration)
Confidential Information
TBD
TBD
TBD
TBD
TBD
mA
mA
mA
mA
µs
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Ref: OEM-2012-149
5.1.4 Pin Out Table
Here below the FC7100 main connector (140 pins):
Pin
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
89
91
93
95
97
99
101
103
105
107
109
111
113
115
117
119
121
123
125
127
129
131
133
135
137
139
Function
USB_0_DN
USB_0
USB_0_DP
USB_0_VBUS
Wake_Up
Wake_Up_LPO
PowerVDD_SD1_UART_5_6_7
VDD_SD1 UART_5/6/7 INPUT
3V3_MAIN
3V3_MAIN
3V3_MAIN
3V3_MAIN
Power_Good
Power_Good
3V3_PERM
3v3_PERM
ETH_RGMII_TXD_00 / GPIO_139
ETH_RGMII_TXD_02 / GPIO_141
ETH_RGMII_RXD_00 / GPIO_145
Ethernet
GPIO
ETH_RGMII_RXD_02 / GPIO_147
RGMII
ETH_RGMII_RX_CTL / GPIO_149
ETH_RGMII_TX_CTL / GPIO_143
ETH_RGMII_RX_CLK / GPIO_144
GND
SPI_11 / GPIO_088 / AAI_26
SPI_10 / GPIO_087 / AAI_25
SPI[8:11]
AAI
SPI_09 / GPIO_086 / AAI_24
SPI_08 / GPIO_085 / AAI_23
GND
SPI_07 / GPIO_084 / AAI_22
SPI_06 / GPIO_083 / AAI_21
SPI [0:7]
SPI_05 / GPIO_082 / AAI_20
AAI
SPI_04 / GPIO_081 / AAI_19
Part 1
SPI_01 / GPIO_078 / AAI_16 / CAN1_RX
SPI_00 / GPIO_077 / AAI_15 / CAN1_TX
I2C_1
I2C_1_CLK / GPIO_062
I2C_2
I2C_2_CLK / GPIO_060
UART_0_CTS / GPIO_058
UART_0_RX / GPIO_055
UART 0
GPIO
UART_0_TX / GPIO_056
UART_0_RTS / GPIO_057
CAM_1_DAT15 / CAM_0_DAT07 / GPIO_216
CAM_1_DAT14 / CAM_0_DAT06 / GPIO_215
CAM_0 (16
CAM_1
CAM_1_DAT13 / CAM_0_DAT05 / GPIO_214
bits)
CAM_1_DAT12 / CAM_0_DAT04 / GPIO_213
CAM_1_DAT11 / CAM_0_DAT03 / GPIO_212
CAM_5_DAT07 / GPIO_014
GPIO
CAM_5_DAT06 / GPIO_013
CAM_5
CAM_5_DAT05 / GPIO_012
CAM_5_DAT03 / SD_2_DAT02 / GPIO_010
SD2
CAM_5_DAT01 / SD_2_DAT00 / GPIO_008
LCD_1_DAT00 / CAM_2_DAT02 / GPIO_183
LCD_1_DAT01 / CAM_2_DAT03 / GPIO_184
CAM_2 LCD_1_DAT02 / CAM_2_DAT04 / GPIO_185
LCD_1_DAT03 / CAM_2_DAT05 / GPIO_186
LCD_1
LCD_1_DAT04 / CAM_2_DAT06 / GPIO_187
LCD_1_DAT06 / CAM_3_CLK / GPIO_189
LCD_1_DAT08 / CAM_3_DAT01 / GPIO_191
CAM_3
LCD_1_DAT10 / CAM_3_DAT03 / GPIO_193
LCD_1_DAT12 / CAM_3_DAT05 / GPIO_195
GND
LCD_1
CAM_2 LCD_1_CLK / CAM_2_DAT01 / GPIO_182
GND
CAM_3 LCD_1_DAT14 / CAM_3_DAT07 / GPIO_197
LCD_1_DAT16 / CAM_4_DAT00 / GPIO_199
LCD_1_DAT18 / CAM_4_DAT02 / GPIO_201
LCD_1_DAT19 / CAM_4_DAT03 / GPIO_202
LCD_1
CAM_4 LCD_1_DAT20 / CAM_4_DAT04 / GPIO_203
LCD_1_DAT21 / CAM_4_DAT05 / GPIO_204
LCD_1_DAT22 / CAM_4_DAT06 / GPIO_205
LCD_1_DAT23 / CAM_4_DAT07 / GPIO_206
LCD_1_RSTn_Touch / CAM_0_VS / GPIO_154
LCD_1_IT_TouchScreen / CAM_0_HS / GPIO_155
LCD_1
GPIO
LCD_1_BKL_En / CAM_5_VS / GPIO_160
LCD_1_RSTn / CAM_5_HS / GPIO_161
GND
Type
Power
Domain
I/O
I/O
5v
3V3
1v8 / 3v3
3V3
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
3V3
3V3
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
Gnd
3V3
3V3
3V3
3V3
Gnd
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
VDD_SD2
VDD_SD2
VDD_SD2
VDD_SD2
VDD_SD2
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
Gnd
3V3
Gnd
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
Gnd
Confidential Information
Description
USB 0 Data USB 0 Data +
USB 0 VBUS
Wake Up Low Power
Power Supply SDIO1 and UART 5/6/7
Power supply : 3v3
Power Good
Power Supply Permanent : 3v3
GPIO or Ethernet RGMII Tx Data 0
GPIO or Ethernet RGMII Tx Data 2
GPIO or Ethernet RGMII Rx Data 0
GPIO or Ethernet RGMII Rx Data 2
GPIO or Ethernet RGMII Rx Control
GPIO or Ethernet RGMII Tx Control
GPIO or Ethernet RGMII Rx Clock
Ground
GPIO or SPI or AAI
GPIO or SPI or AAI
GPIO or SPI or AAI
GPIO or SPI or AAI
Ground
GPIO or SPI or AAI
GPIO or SPI or AAI
GPIO or SPI or AAI
GPIO or SPI or AAI
GPIO or SPI or AAI
GPIO or SPI or AAI
I2C 1 Clock or GPIO
I2C 2 Clock or GPIO
UART 0 CTS or GPIO
UART 0 RX or GPIO
UART 0 TX or GPIO
UART 0 RTS or GPIO
CAM 1 Data 7 or CAM 0 Data 7 or GPIO
CAM 1 Data 6 or CAM 0 Data 6 or GPIO
CAM 1 Data 5 or CAM 0 Data 5 or GPIO
CAM 1 Data 4 or CAM 0 Data 4 or GPIO
CAM 1 Data 3 or CAM 0 Data 3 or GPIO
CAM 5 Data 7 or GPIO
CAM 5 Data 6 or GPIO
CAM 5 Data 5 or GPIO
CAM 5 Data 3 or SDIO 2 Data 2 or GPIO
CAM 5 Data 1 or SDIO 2 Data 0 or GPIO
LCD 1 Data 0 or CAM 2 Data 2 or GPIO
LCD 1 Data 1 or CAM 2 Data 3 or GPIO
LCD 1 Data 2 or CAM 2 Data 4 or GPIO
LCD 1 Data 3 or CAM 2 Data 5 or GPIO
LCD 1 Data 4 or CAM 2 Data 6 or GPIO
LCD 1 Data 6 or CAM 3 Clock or GPIO
LCD 1 Data 8 or CAM 3 Data 1 or GPIO
LCD 1 Data 10 or CAM 3 Data 3 or GPIO
LCD 1 Data 12 or CAM 3 Data 5 or GPIO
Ground
LCD 1 Clock or CAM 2 Data 1 or GPIO
Ground
LCD 1 Data 14 or CAM 3 Data 7 or GPIO
LCD 1 Data 16 or CAM 4 Data 0 or GPIO
LCD 1 Data 18 or CAM 4 Data 2 or GPIO
LCD 1 Data 19 or CAM 4 Data 3 or GPIO
LCD 1 Data 20 or CAM 4 Data 4 or GPIO
LCD 1 Data 21 or CAM 4 Data 5 or GPIO
LCD 1 Data 22 or CAM 4 Data 6 or GPIO
LCD 1 Data 23 or CAM 4 Data 7 or GPIO
LCD 1 Resetn_Touch Screen or CAM 0 VS or GPIO
LCD 1 IT Touch Screen or CAM 0 HS or GPIO
LCD 1 Backlight Enable or CAM 5 VS or GPIO
LCD 1 Resetn or CAM_5_HS or GPIO
Ground
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Ref: OEM-2012-149
Pin
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
120
122
124
126
128
130
132
134
136
138
140
Function
GND
3V3_MAIN
3V3_MAIN
3V3_MAIN
3V3_MAIN
3V3_MAIN
USB_1_DP
USB_1
USB_1_DN
GND
BOOT
BOOT
PWR_En
Power_En
Power VDD_ETH & GPIO
VDD_ETH INPUT
ETH_RGMII_TXD_01 / GPIO_140
ETH_RGMII_TXD_03 / GPIO_142
ETH_RGMII_RXD_01 / GPIO_146
Ethernet
ETH_RGMII_RXD_03 / GPIO_148
GPIO
RGMII
ETH_RGMII_TX_CLK / GPIO_138
ETH_MDC / GPIO_150
ETH_MDIO / GPIO_151
SPI_16 / ETH_MII TXER / GPIO_134
Ethernet
SPI_17 / ETH_MII RXER / GPIO_135
SPI
MII
SPI_18 / ETH_MII CRS / GPIO_136
SPI_19 / ETH_MII COL / GPIO_137
GND
AAI_14 / GPIO_133 / PWM_14
AAI_12 / GPIO_131 / PWM_12
PWM
AAI_11 / GPIO_130 / PWM_11
AAI
AAI_10 / GPIO_129 / PWM_10
SPI_03 / GPIO_080 / AAI_18 / CAN0_RX
SPI [0:7] Part 2
SPI_02 / GPIO_079 / AAI_17 / CAN0_TX
GND
I2C_1
I2C_1_DAT / GPIO_061
I2C_2
I2C_2_DAT / GPIO_059
SD_1_CMD / UART_5_RX
UART 5
SD_1_CLK / UART_5_TX
SD_1_DAT03 / UART_7_RX
SD1
UART 7
SD_1_DAT02 / UART_7_TX
SD_1_DAT01 / UART_6_RX
UART 6
SD_1_DAT00 / UART_6_TX
GND
CAM_1_DAT10 / CAM_0_DAT02 / GPIO_211
CAM_0 (16
CAM_1_DAT09 / CAM_0_DAT01 / GPIO_210
bits)
CAM_1
CAM_1_DAT08 / CAM_0_DAT00 / GPIO_209
GPIO
CAM_1_CLK / GPIO_217
CAM_5_DAT04 / SD_2_DAT03 / GPIO_011
CAM_5
SD2
CAM_5_DAT02 / SD_2_DAT01 / GPIO_009
CAM_5_DAT00 / SD_2_CMD / GPIO_007
GND
CAM_5
SD2
CAM_5_CLK / SD_2_CLK / GPIO_006
Power VDD_SD2 _CAM_5
VDD_SD2_CAM5 INPUT
CAM_2
LCD_1_DAT05 / CAM_2_DAT07 / GPIO_188
LCD_1_DAT07 / CAM_3_DAT00 / GPIO_190
LCD_1_DAT09 / CAM_3_DAT02 / GPIO_192
CAM_3
LCD_1_DAT11 / CAM_3_DAT04 / GPIO_194
LCD_1_DAT13 / CAM_3_DAT06 / GPIO_196
LCD_1
LCD_1_DAT15 / CAM_4_CLK / GPIO_198
CAM_4
LCD_1_DAT17 / CAM_4_DAT01 / GPIO_200
GPIO
LCD_1_DEN / GPIO_207
LCD_1_HS / CAM_2_CLK / GPIO_180
CAM_2
LCD_1_VS / CAM_2_DAT00 / GPIO_181
GND
CAM_0_CLK / LCD_0_CLK / GPIO_179
CAM_0_DAT08 / LCD_0_DAT08 / GPIO_163
CAM_0_DAT09 / LCD_0_DAT09 / GPIO_164
CAM_0_DAT10 / LCD_0_DAT10 / GPIO_165
CAM_0
LCD_0
CAM_0_DAT11 / LCD_0_DAT11 / GPIO_166
CAM_0_DAT12 / LCD_0_DAT12 / GPIO_167
CAM_0_DAT13 / LCD_0_DAT13 / GPIO_168
CAM_0_DAT14 / LCD_0_DAT14 / GPIO_169
CAM_0_DAT15 / LCD_0_DAT15 / GPIO_170
GND
Power
Domain
Gnd
3V3
Type
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
Confidential Information
Gnd
3V3
3V3
1v8 / 3v3
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
VDD_ETH
Gnd
3V3
3V3
3V3
3V3
3V3
3V3
Gnd
3V3
3V3
VDD_SD1
VDD_SD1
VDD_SD1
VDD_SD1
VDD_SD1
VDD_SD1
Gnd
3V3
3V3
3V3
3V3
VDD_SD2
VDD_SD2
VDD_SD2
Gnd
VDD_SD2
1v8 / 3v3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
Gnd
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
3V3
Gnd
Description
Ground
Power supply : 3v3
USB 1 Data +
USB 1 Data Ground
Initial Flashing pin
Power Enable
Power Supply Ethernet 1v8 / 2v5 / 3v3 or GPIO
GPIO or Ethernet RGMII Tx Data 1
GPIO or Ethernet RGMII Tx Data 3
GPIO or Ethernet RGMII Rx Data 1
GPIO or Ethernet RGMII Rx Data 3
GPIO or Ethernet RGMII Tx Clock
GPIO or Ethernet RGMII
GPIO or Ethernet RGMII
SPI CLK or Ethernet MII or GPIO
SPI MOSI or Ethernet MII or GPIO
SPI SS or Ethernet MII or GPIO
SPI MISO or Ethernet MII or GPIO
Ground
GPIO or AAI or PWM
GPIO or AAI or PWM
GPIO or AAI or PWM
GPIO or AAI or PWM
GPIO or AAI or SPI
GPIO or AAI or SPI
Ground
I2C 1 Data or GPIO
I2C 2 Data or GPIO
SDIO 1 Command or UART 5 RX
SDIO 1 Clock or UART 5 TX
SDIO 1 Data 3 or UART 7 RX
SDIO 1 Data 2 or UART 7 TX
SDIO 1 Data 1 or UART 6 RX
SDIO 1 Data 0 or UART 6 TX
Ground
CAM 1 Data 2 or CAM 0 Data 2 or GPIO
CAM 1 Data 1 or CAM 0 Data 1 or GPIO
CAM 1 Data 0 or CAM 0 Data 0 or GPIO
CAM 1 Clock or GPIO
CAM_5_DAT04 or SDIO 2 Data 3 or GPIO
CAM_5_DAT02 or SDIO 2 Data 1 or GPIO
CAM_5_DAT00 or SDIO 2 Command or GPIO
Ground
CAM_5_CLK or SDIO 2 Clock or GPIO
Power Supply SDIO2 and Camera 5
LCD 1 Data 05 or CAM 2 Data 7 or GPIO
LCD 1 Data 07 or CAM 3 Data 0 or GPIO
LCD 1 Data 09 or CAM 3 Data 2 or GPIO
LCD 1 Data 11 or CAM 3 Data 4 or GPIO
LCD 1 Data 13 or CAM 0 Data 6 or GPIO
LCD 1 Data 15 or CAM 4 Clock or GPIO
LCD 1 Data 17 or CAM 4 Data 1 or GPIO
LCD 1 Data Enable or GPIO
LCD 1 HS or CAM 2 Clock or GPIO
LCD 1 VS or CAM 2 Data 0 or GPIO
Ground
CAM 0 Clock or LCD 0 Clock or GPIO
CAM 0 Data 08 or LCD 0 Data 0 or GPIO
CAM 0 Data 09 or LCD 0 Data 1 or GPIO
CAM 0 Data 10 or LCD 0 Data 2 or GPIO
CAM 0 Data 11 or LCD 0 Data 3 or GPIO
CAM 0 Data 12 or LCD 0 Data 4 or GPIO
CAM 0 Data 13 or LCD 0 Data 5 or GPIO
CAM 0 Data 14 or LCD 0 Data 6 or GPIO
CAM 0 Data 15 or LCD 0 Data 7 or GPIO
Ground
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Ref: OEM-2012-149
5.1.4.1 Pin number definition
5.1.5 RF connectors location
2.4 GHz
5 GHz
GPS
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Ref: OEM-2012-149
5.2
Power supplies & management
FC7100’s processor’s digital I/O are mainly referenced to a 3,3V voltage,
Ethernet interface can be configured either in 1,8V, 2,5V or 3,3V.
SDCard 1 & 2 can be configured either in 1,8Vor 3,3V voltage.
Camera 5 (CAM_5) can be configured either in 1,8Vor 3,3V voltage.
UART 5,6 & 7 can be configured either in 1,8Vor 3,3V voltage.
5.2.1 Absolute maximum ratings
Operating temperature range ............................................................................................ -40°C to +85°C
Storage temperature range.............................................................................................. -40°C to +105°C
DC input supply voltage (3v3 power domain) .................................................................................... 3,6V
DC input supply voltage (2v5 power domain) .................................................................................. 2,75V
DC input supply voltage (1v8 power domain) .................................................................................. 1,95V
5.2.2 External power supplies
•
3V3_MAIN
To operate, the module requires a unique 3V3 voltage power supply capable to deliver up to 4 A.
Recommendation on power management (3v3_MAIN) near the connector: 1x47uF and 1x22uF
capacitor.
3v3_PERM must always be present before (and during) 3v3_MAIN power supply.
•
3V3_PERM
In case where RTC (Real Time Clock) option is needed, for time-keeping, the motherboard must
permanently supply the 3V3_PERM pin of the board with an independent 3V3 voltage.
In case where RTC option isn’t needed, the 3V3_PERM and the 3V3_MAIN can be connected
together on a same 3,3V supply on the motherboard.
•
VDD_ETH
For customers who want to configure the Ethernet interface with 1,8V, 2,5V or 3,3V I/O voltage, the
module requires to be powered with a 1,8V, 2,5V or 3,3V external power supply.
•
VDD_SD1_UART_5_6_7
For customers who want to configure the Ethernet interface with 1,8V, 2,5V or 3,3V I/O voltage, the
module requires to be powered with a 1,8V, 2,5V or 3,3V external power supply.
•
VDD_SD2_CAM5
For customers who want to configure the Ethernet interface with 1,8V, 2,5V or 3,3V I/O voltage, the
module requires to be powered with a 1,8V, 2,5V or 3,3V external power supply.
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5.3
External communication interfaces
FC7100 module uses several means to interface with the system it is integrated in.
5.3.1 Digital IO Pins
The FC7100 I/Os belong to 3 different digitals power domains: 1,8V, 2,5V or 3,3V power supplies.
The transmission line must be adapted to 50 ohm, at all available frequencies
VDDO is the generic power supply name of the power domain. It can represent 3V3_MAIN,
VDD_ETH, VDD_SD1 or VDD_SD2.
5.3.1.1 3,3V power domain
(Condition: VDD = 3.3v)
Parameter
Input Low Voltage VIL
Input High Voltage VIH
Low Level Output Voltage VOL
High Level Output Voltage VOH
Max Output Current
Please note that it is forbidden to apply a VIH on an
supplied.
Min
2,0
2,4
Typ
unpowered GPIO,
Unit
mA
so when its VDDO isn’t
Parameter
Min
Typ
Input Low Voltage VIL
Input High Voltage VIH
1,7
Low Level Output Voltage VOL
High Level Output Voltage VOH
Max Output Current
Please note that it is forbidden to apply a VIH on an unpowered GPIO,
supplied.
Unit
mA
so when its VDDO isn’t
Max
0,8
VDDO
0,4
VDDO
5.3.1.2 2,5V power domain
(Condition: VDD = 2.5v)
Max
0,7
VDDO
0,4
VDDO
5.3.1.3 1,8V power domain
(Condition: VDD = 1.8v)
Parameter
Input Low Voltage VIL
Input High Voltage VIH
Low Level Output Voltage VOL
High Level Output Voltage VOH
Max Output Current
Min
1,26
1,4
Confidential Information
Typ
Max
0,54
VDDO
0,4
VDDO
Unit
mA
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Ref: OEM-2012-149
Please note that it is forbidden to apply a VIH on an unpowered GPIO, so when its VDDO isn’t
supplied.
5.3.2 I2C
Supports 100kb/s, 400kb/s, 1Mb/s and 3,4Mb/s
3,4Mb/s speeds in master mode and 100kb/s, 400kb/s in
slave mode,
I2C is an Open Drain protocol. External pull-up to VDDO are needed. The pull-up shouldn’t be
supplied if the corresponding VDDO to the I2C pads isn’t powered.
•
I2C_1
I2C_1 is a 3,3V signaling I2C link dedicated to be used on motherboard,
It can operate as a master or as a slave,
Note: On WB_FC7xxx development board, I2C_0 is used for Touch Panel Controller, external audio
codec & audio power amplifier interface,
•
I2C_2
I2C_2 is 3,3V signaling at the connector end,
It can operate as a master or as a slave,
Note: On WB_FC7xxx board, I2C_1 is used for iPOD authentication chip communication,
5.3.3 UART
The UARTs are Universal Asynchronous Receiver-Transmitter, commonly used in conjunction
with communication standards such as EIA, RS-232, RS-422 or RS-485. The maximum speed of this
interface is 3MHz, with flow control signals.
•
•
UART_0 : UART 0 is a standard UART interface (Rx & Tx signals), with flow control signals
(RTS & CTS),
UART_5, 6 and 7 have only Rx and Tx signals,
5.3.4 PWM
Up to 16 PWM outputs are available. They support frequencies from 0,06Hz to 65MHz with a
programmable duty cycle or from 3,97kHz to 130MHz with a 50% duty cycle.
5.3.4
5.3.5 SDIO
5.3.4
SDIO_1 is a complete SD Card bus, compliant with SDIO v3.0 specification part.
It supports SD High Capacity (SDHC), SD High Speed (SDHS) and SD eXtended Capacity (SDXC) cards
standard.
5.3.4
It is also used as secondary flash update interface.
5.3.4
5.3.4
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Ref: OEM-2012-149
•
SDIO_1
SDIO_1 is multiplexed with UART_5, 6 and 7,
•
SDIO_2
SDIO_2 is multiplexed with CAM5.
SDIO_1 and SDIO_2 are compliant Default speed, High Speed, SDR12, SDR25, SD50 and DDR50 mode.
To be compliant to UHS-1 mode, an external power supply to switch between 3v3 to 1v8 is
necessary. See section xx for an architecture example.
The maximum bus speed depends of the layout length and impedance.
The transmission line must be adapted to 50 ohm, at all available frequencies. It’s recommend
support maximum total capacitor load CL of about 15pF for UHS104 card and about 30pF for
UHS50 card.
5.3.6 USB
5.3.6.1 USB_0
USB_0 is a host or device USB interface compliant with USB2.0 High Speed Specifications.
The VBUS_0 pin is an input signal.
When USB_0 are host, the power Supply VBUS_0 (5V) must be generate by the motherboard.
The pin “5” USB_0_VBUS of main connector must be connect
connect to this external power supply VBUS.
5.3.6.2 USB_1
USB_1 is a host only USB interface compliant with USB2.0 High Speed Specifications.
The power Supply VBUS (5V) must be generate by the motherboard.
The module doesn’t need to receive this voltage.
5.3.7 SPI
FC7100 has 4 SPI interfaces.
5.3.7.1 SPI_0
SPI_0 is multiplexed with the Ethernet interface (same VDDO voltage).
5.3.7.2 SPI_1, 2 and 3
SPI1,2 and 3 do operate as a master or a slave on a 3,3V bus. Its maximum clock frequency is 48 MHz.
5.3.8
MPEG TS
FC7100 has 2 Transport Stream MPEG interfaces.
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Ref: OEM-2012-149
5.3.9 Ethernet
Ethernet interface is compatible with a MII PHY interface from 802.3-2008 or a RGMII PHY interface
from HP/Marvell specification version 2.6.
5.3.10 Audio interfaces
FC7100 module provides digital audio interface only.
The digital audio interface of the FC7100 is composed of 16 pads, that can be configured in various
combination, allowing the use of interfaces I2S input and output, TDM inputs and outputs, PCM
inputs and outputs, SPDIF inputs and outputs, The configuration cannot exceed the following:
• I2S inputs: 8 Stereo (4 of them can be configured as SPDIF-audio)
• I2S outputs: 4 Stereo
• TDM inputs: 1 Quad or 1 Octo
• TDM outputs: 1 Quad or 1 Octo
• PCM inputs/outputs: 2
• SPDIF inputs: 1 binary input (+ the 4 SPDIF/audio mentioned above)
• SPDIF outputs: 1 binary output
Providing a complete I2S interface (bit clock, left/right clock & master clock), FC7100 operates as
master of the bus for an external audio codec on motherboard.
If needed, FC7100 I2S interface can be set as slave if the motherboard provides
provides the needed clock
signals: master clock & Left/Right clock.
Note: If FC7100 is configured as slave, all the I2S I/O will be synchronized on the motherboard clock.
If another I2S master interface must be connected to FC7100, the FC7100 can synchronize the I2S
data with the left/right clock.
5.3.11 Video interfaces
FC7100 features input & output video flow management,
5.3.11.1 Display interfaces
FC7100 has two display interfaces:
• LCD_1:
o 24 bits, ITU_656 & ITU_601, 1080p,
o 16 or 8 bits, ITU_656 & ITU_601
o 3,3V signalling targeting LCD Panel use: It includes Horizontal & Vertical
synchronization signals and can also be used with Data Enable signal only,
•
LCD_0: 8 bits, ITU_656 & ITU_601, 720p multiplexed with CAM_0,
5.3.11.2 Record interfaces
FC7100 has three record interfaces:
•
CAM_0:
8 bits, ITU_656 & ITU_601, 720p
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or
16 bits, ITU_656 & ITU_601, 1080p
(When CAM_0 is on 16 bits interface, CAM_1 cannot be used)
•
CAM_1:
8 bits, ITU_656 & ITU_601, 720p
•
CAM_5:
8 bits, ITU_656 & ITU_601, 720p
•
CAM_2, CAM_3 and CAM_4 (when LCD_1 is not used)
8 bits, ITU_656, 720p
5.3.11.3 Display and record interface option.
The input/ouput video interfaces are multiplexed on the main FC7100 connector. (See paragraph:
1.1.4 Pinout Table)
•
LCD_1 : Many display and record interface option are available:
Config #1 : LCD 24 bits (1080p)
Config #2 : LCD 16 bits (1080p) + CAM 8 bits (720p)
Config #3 : LCD 8 bits (720p) + 2 x CAM 8 bits (720p)
Config #4 : 3 x CAM 8 bits (720p)
Config #1
Config #2
Config #3
Config #4
8 bits
8 bits
8 bits
8 bits
8 bits
8 bits
ITU 656
8 bits
ITU656
8 bits
LCD_1
16 bits
24 bits
ITU 656
8 bits
8 bits
•
CAM_0 and CAM_1 : Many display and record interface option are available:
Config #a : 2 x CAM 8 bits (720p)
Config #b : 1 x CAM 16 bits (1080p)
Config #c : LCD 8 bits (720p) + CAM 8 bits (720p)
CAM_0 can be used on ITU601.
Config #a
CAM_0
Config #b
ITU 656
8 bits
8 bits
8 bits
CAM_1
Config #c
ITU656
8 bits
16 bits
8 bits
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Ref: OEM-2012-149
•
CAM_5 :
Config #α : 1 x CAM 8 bits (720p)
Config #β : 1 x SDIO interface (SD XC compatible)
Config #α
CAM_5
Config #β
ITU 656
8 bits
8 bits
In summary, all options are below :
•
•
•
•
•
•
•
•
•
•
•
LCD 24 bits (1080p) + 3xCAM 8 bits (720p)
LCD 24 bits (1080p) + LCD 8 bits (720p) + 2xCAM 8 bits (720p)
LCD 24 bits (1080p) + CAM 16 bits (1080p) + CAM 8 bits (720p)
LCD 16 bits (1080p) + 4 x CAM 8 bits (720p)
LCD 16 bits (1080p) + CAM 16 bits (1080p) + 2 x CAM 8 bits (720p)
LCD 16 bits (1080p) + LCD 8 bits (720p) + 3 x CAM 8 bits (720p)
LCD 8 bits (720p) + 5 x CAM 8 bits (720p)
LCD 8 bits (720p) + CAM 16 bits (1080p) + 3 x CAM 8 bits (720p)
LCD 8 bits (720p) + LCD 8 bits (720p) + 4 x CAM8 bits (720p)
6 x CAM 8 bits (720p)
CAM 16 bits (1080p) + 4 x CAM 8 bits (720p)
5.3.12 IO configuration
The GPIO interface provides programmable general input/output configurable.
configurable. Interrupt lines
available on any edge or polarity event. Each source can be selected among all the GPIOs.
Each pads have programmable :
•
Drive strength : can be programmed from 2.93mA to 17.24mA during pull-up and 2.68mA to
16.17mA during pull down.
•
Slew Rate: The slew rate is defined as the maximum rate of change of the output voltage.
•
Keeper: enable or disable keeper mode. Holds last value on a tri-state bus.
•
Pull-down or Pull-up: active an internal pull-down or pull-up.
Parameter
Pull Up impedance
Pull Down impedance
•
Min.
27
27
Typ
Max.
30
30
34
34
Unit
kOhm
KOhm
Schmitt trigger: enable or disable Schmitt Trigger.
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6 Mechanical
6.1
Outline dimensions
Weight: 51 g
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6.2
Motherboard PCB layout
The module’s interface is made through a 140-pin board to board connector with a 0,635 mm pitch
•
6.3
Connectors
6.3.1 FC7100 Main connector
The module’s interface with host systems is made through a 140-pin board to board connector with a
0.635mm pitch.
•
•
Module connector reference: MOLEX 52885-1474
Motherboard connector’s reference: MOLEX 55091- 1474
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6.3.2 BT, WLAN and GPS external antenna connectors
Theses RF connectors are of ultra-small coaxial type:
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6.4
Thermal integration guidelines (TBC)
The local maximum ambient air temperature (Tamb
dissipation system (example: heatsink) with:
max
= 85°C) can be supported by thermal
θsa ≤ 1 °C/W
(θsa is the thermal resistance thermal dissipation system to ambient)
Thermal interface materials (TIM), which are used between the thermal dissipation system and the
interface casing, can be of many kinds, including
including greases, gels, adhesives, tapes, silicon rubber
materials, and special thermoplastic adhesives.
Thermal dissipation system can be attached directly to the interface casing with using M3 hole
fixation on the top of casing.
7 Available Tools
7.1
Workbench
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8 Marking
8.1
Module Marking
8.1.1 Label
8.1.2 Position and Orientation on module
9 Caution for use
9.1
ESD Compliance
Operator must use ESD protection gloves for Module Manipulation. In case of electrical
discharge, Module must be scrapped.
9.2
Safety
Mechanical shield is made of metal and have several draft angle on RF connectors which can
cause Human injuries. Operator must be trained on how to manipulate it.
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9.3
Assembly
Key mechanical dimensions are tested before shipment.
In case of manual handling or operation, to avoid any issue with mechanical distance between
legs and ensure a good insertion in the host side, packaging has been designed to ensure that
operator will pick up the part by the most adequate area of the module. Operator should be
trained and alerted about this specific behavior.
9.4
Drop
In case the part drop to the floor, Parrot doesn’t warrant the part. Part has to be scrapped.
Same process applies in our manufacturing site.
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10 APPROVAL / CERTIFICATIonS
10.1 Normative informations
F7100 module certifications identifications :
CERTIFICATION
ID
Bluetooth
QD ID:
CE
CE 0700
FCC
RKXFCC7100
IC
5119A-FC7100
TELEC
R : 202--LSC072
T : D 14-0041 202
10.2 FCC and IC requirements for module application
Identifications:
FCC ID: RKXFC7100
IC : 5119A-FC7100
In accordance with FCC Part 15, the FC7100 is listed as a limited Modular Transmitter device.
USA – User information
This intends to inform how to specify the FCC ID of our module “FC7100” on the final product:
Based on the Public Notice from FCC, the host device
device should have a label which indicates that it
contains our module.
The label should use wording such as: “Contains FCC ID: RKXFC7100”. Any similar wording that
expresses the same meaning may be used.
The label of the host device should also include the below
below FCC statements When it is not
possible, this information should be included in the User Manual of the host device:
“This device complies with part 15 of the FCC rules. Operation is subject to the following two
conditions.
(1) This device may not cause harmful interference
(2) This device must accept any interference received, including interference that may cause
undesired operation.
Caution: Changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
This equipment has been tested and found to comply with the limits for a class B digital device,
pursuant to part 15 of the FCC Rules. These limits are designed to provide a reasonable
protection against harmful interference
interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy and, if not installed and uses in accordance with the
instructions, may cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this equipment does
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cause harmful interference to radio or television reception, wich can be determined by turning
the equipment off and on, the user is encouraged to try to correct the interference by one or
more of the following measures:
1) Reorient or relocate the receiving antenna
2) Increase the separation between the equipment and the receiver
3) Connect the equipment into a an outlet on a circuit different from that to which the receiver is
connected
Consult the dealer or an experienced radio/TV technician for help.”
CANADA – User information
This intends to inform how to specify the Industry Canada (IC) ID of our module “FC7100” on the
final product:
According to Canadian standards “RSS-210” and “RSS-Gen”, the host device should have a label
which indicates that it contains our module. The label should use wording such as: “Contains IC
ID: 5119A-FC7100”. Any similar wording that expresses the same meaning may be used.
The label of the host device should also include the below IC statements. When it is not possible,
this information should be included in the User Manual of the host device:
[English]
“This device complies with Industry Canada licence-exempt RSS standards. Operation is subject
to the following two conditions:
(1) This device may not cause interference, and
(2) This device must accept any interference, including interference that may cause undesired
operation of the device.
This equipment complies with IC RF radiation exposure limits
limits set forth for an uncontrolled
environment. The antenna(s) used for this transmitter must be installed and operated to provide a
separation distance of at least 20 cm from all persons, and must not be co-located or operated in
conjunction with any other antenna or transmitter. Installers / integrators must ensure that a
separation distance of at least 20 cm exists between the device and its antenna and users.
[French]
« Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio
exempts de licence. L'exploitation est autorisée aux deux conditions suivantes :
(1) L’appareil ne doit pas produire de brouillage, et
(2) L’utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le
brouillage est susceptible d'en compromettre le fonctionnement »
Cet appareil est conforme aux limites d’exposition aux rayonnements RF stipulées par IC pour une
utilisation dans un environnement non contrôlé. Les antennes utilisées pour cet émetteur doivent être
installées et doivent fonctionner à au moins 20 cm de distance des utilisateurs, et ne doivent pas être
placées près d’autres antennes ou émetteurs, ou fonctionner en conjonction avec ceux-ci. Les
installateurs / intégrateurs doivent s’assurer qu’une distance de 20 cm au moins sépare l’appareil et
ses antennes des utilisateurs. »
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10.3 Japanese Radio Law and Japanese Telecommunications Business Law
Compliance.
This device is granted pursuant to the Japanese Radio Law (電波法)
and the Japanese Telecommunications Business Law (電気通信事業法)
This device should not be modified (otherwise the granted designation number will become invalid)
Identifications:
R : 202-LSC072
T : D 14-0041 202
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