conga-QEVAL User's Guide
Contents
1. s 1 GND 14 4 3 3V ExpressCard h 2 USB P6 15 3 3V CN8 3 USB_P6 16 CLKREQ 4 CPUSB 17 EXCDO_CPPE 5 5 RSVD 18 PCIE6 CLKC 6 RSVD 19 PCIE6_CLKC 7 SMBCLK 20 GND CN8 8 SMBDATA 21 PCIE6 RX 9 1 5V 22 PCIE6_RX 10 1 5V 23 GND 11 PCIE_WAKE 24 PCIE6_TX USB BOE H 12 3 3V Standby 25 PCIE6_TX D 13 EXCDO_PERST 26 GND PCI Express Link 6 all 5 li LED D4 is a red LED that indicates an Overcurrent Event has occurred in the ExpressCard slot D4 9325 Note The ExpressCard socket uses USB Port 6 This port is USB 2 0 compliant only it is not backwards compatible to USB 1 1 and therefore does not support the connection of USB 1 1 devices Copyright 2009 congatec AG QEVAm 11 26 36 4 2 10 2 PCI Express Mini Card E congatec the rhythm of embedded computing The conga QEVAL is equipped with a PCI Express Mini Card socket PCI Express Mini Card is a unique small size form factor optimized for mobile computing platforms equipped with communication applications such as wireless LAN The small footprint connector can be implemented on carrier board designs providing the ability to insert different removable PCI Express Mini Cards Using this approach gives the flexibility to mount an upgradable standardized PCI Express Mini Card device to the carrier board without add2. 1 5V 750 mA fuse 2 5V_SB 750 mA fuse 3 HDD LED 4 Hard Disk Activity Shows activity on hard disk interface 5 I2C_DAT General purpose I C port data I O line 6 SMB_CLK System Management Bus bidirectional clock line Feature 7 I2C CLK General purpose I C port clock output 8 SMB DAT System Management Bus bidirectional data line CN35 9 N C 10 N C 11 N C 12 N C 59 8g 13 PS ON Power Supply On active low 14 N C MN 15 SUS_S3 S3 State This signal shuts off power to all 16 N C m runtime system components that are not E e maintained during S3 Suspend to Ram S 8 S4 or S5 states The signal SUS_S3 is rs necessary in order to support the optional S3 mm cold power state P A 17 GND Power Ground 18 GND Power Ground B S 19 THRMTRIP Active low output indicating that the CPU has 20 SMB_ALERT System Management Bus Alert input This signal may be amp SN entered thermal shutdown driven low by SMB devices to signal an event on the SM ER Bus a z 21 N C 22 N C m m 23 SUS_STAT Suspend Status indicates that the system 24 N C Er E will be entering a low power state soon is 25 N C 26 SUS_S5 S5 State This signal indicates S4 or S5 Soft Off state e 2 27 WDTRIG 28 THRM Input from off module temp sensor indicating an over temp situation LZ 29 NC 30 NC m 31 BATLOW Indicates that external battery is low 32 WAKE External system wake event This may be
3. A list of the POST codes and associated POST test and initialization routines for the BIOS used on congatec Qseven modules is available at http www congatec com Debug Display Jumper CN32 Configuration Config CN32 1 2 Port 80h and port 84h output default am 3 4 Port 90h and port 94h output me FRA Connector Type CN32 4 pin 2 row 2 54mm grid jumper Internal Use Only Connectors Connectors CN33 CN45 and CN46 are designated for internal use only and therefore are not available HFH Connector Type CN33 7 pin 2 54mm grid jumper CN45 CN46 2E 4M CM om 28 4E GH 3E 10H 128148 CN45 4 pin 2 row 2 54mm grid jumper ETE c a E Rd E CN46 7 pin 2 row 2 54mm grid jumper Copyright 2009 congatec AG QEVAm 11 31 36 5 8 Ground Probes E congatec the rhythm of embedded computing The conga QEVAL provides 4 ground probes CN51 to CN54 that are connected to Ground Potential These test points make it easier to connect oscilloscope probes and or multimeter lines to GND when performing measurements on the Qseven module 5 9 Fan Connector and Power Configuration Ground Probe CN51 CN54 The conga QEVAL provides the ability to connect 5V or 12V cooling fans for the CPU module and system Connector CN37 is for the CPU module s fan and connector CN42 is for the system s fan The following tables describe the pinouts and jumper configuration possibilities CN37 CPU FAN Pin Signal
4. 1 GND 2 VCC 5VDC 12VDC 3 FAN_TACHOIN CN42 SYS FAN Pin Signal 1 GND 2 VCC 5VDC 12VDC 3 HFH Connector Type CN37 and CN42 3 pin 2 54mm grid female fan connector o gt Note N C CPU Fan CN37 4 e E m m SYS Fan CN42 1 2 3 m m m 1 GND 2 VCC 3 FAN TACHOIN 1 GND 2 VCC 3 N C The FAN TACHOIN signal that originates from the Qseven module and is connected to pin 3 on connector CN37 of the conga QEVAL must receive two pulses per revolution in order to produce an accurate reading and therefore a two pulse per revolution fan is recommended Copyright 2009 congatec AG QEVAm 11 32 36 D E congatec the rhythm of embedded computing Jumper CN36 Configuration 1 2 CPU FAN 12VDC 2 3 CPU FAN 5VDC CN36 CN40 1 2 SYS FAN 12VDC default CN49 2 3 SYS FAN 5VDC 2m 1 2 SYS FAN w o control default 2 3 SYS FAN with control FHA Connector Type CN36 CN40 and CN49 2 54mm grid jumper gt Note The FAN_TACHOIN signal that originates from the Qseven module and is connected to pin 3 on connector CN37 of the conga QEVAL must receive two pulses per revolution in order to produce an accurate reading and therefore a two pulse per revolution fan is recommended Copyright 2009 congatec AG QEVAm11 33 36 5 10 Feature Connector Description hi Description congatec the rhythm of embedded computing
5. User Manual Qseven conga QEVAL Detailed description of the congatec Qseven evaluation carrier board Version September 2009 Data ModulAG www data modul com E congatec the rhythm of embedded computing Revision History Revision Date dd mm yy Author Changes 1 0 23 03 09 GDA Official release 1 1 08 09 09 GDA Removed description for socket CN44 SD MMC PLUS is not supported on the conga QEVAL Added note about USB Client connector in section 4 2 5 Preface This user s guide provides information about the components features and connectors available on the conga QEVAL Qseven evaluation carrier board Disclaimer The information contained within this user s guide including but not limited to any product specification is subject to change without notice congatec AG provides no warranty with regard to this user s guide or any other information contained herein and hereby expressly disclaims any implied warranties of merchantability or fitness for any particular purpose with regard to any of the foregoing congatec AG assumes no liability for any damages incurred directly or indirectly from any technical or typographical errors or omissions contained herein or for discrepancies between the product and the user s guide In no event shall congatec AG be liable for any incidental consequential special or exemplary damages whether based on tort contract or otherwise arising out of or in connection with this
6. Revision 2 0 http www usb org home ExpressCard Standard Release 1 0 http www expresscard org Serial ATA Specification Revision 1 0a http www serialata org MMC Multimedia Card Association http www mmca org SD Card Association http www sdcard org Low Pin Count Interface Specification Revision 1 0 LPC http developer intel com design chipsets industry Ipc htm High Definition Audio Specification Rev 1 0 http www intel com standards hdaudio LVDS Owner s Manual http www national com Extended Display Identification Data Standard Version 1 3 EDID http www vesa org Enhanced Display Data Channel Specification Version 1 1 DDC http www vesa org IEEE standard 802 3ab 1000BASE T Ethernet http www ieee org portal site Advanced Configuration and Power Interface Specification Rev 3 0a http www acpi info Copyright 2009 congatec AG QEVAm 11 36 36 DATA MODUL DISPLAY AND EMBEDDED SOLUTIONS Data Modul Headquarters Munich Landsberger Str 322 D 80687 Munich Germany Tel 49 89 56017 0 Sales Office Duesseldorf Fritz Vomfelde Str 8 D 40547 Duesseldorf Germany Tel 49 211 52709 0 Sales Office Hamburg Borsteler Chaussee 51 D 22453 Hamburg Germany Tel 49 40 42947377 0 Data Modul France S A R L Bat B Hall 204 1 3 Rue des Campanules 77185 Lognes France Tel 33 1 60378100 Data Modul Italia S r l Regus Center Senigallia Via Senigallia 18 2 20161 Milano Italy Tel 39 0
7. 0 in order to provide three x1 One link is connected to the PCI Express Mini Card socket and one to the ExpressCard socket The remaining link is connected to PCI Express Slot 3 CN5 The table and diagram below describe the routing of the PCI Express links The table on the following page describes the pinout of each PCI Express slot PCle Link Originates from Connected to Green Status LEDs D5 D8 0 Qseven module PCle Switch D5 PCle link 0 Present EI 1 Qseven module PCle Slot 0 CN2 2 Qseven module PCle Slot 1 CN3 PCle Slot 0 PCle Slot 1 3 Qseven module PCle Slot 2 CN4 CN2 CN3 4 PCle Switch PCle Slot 3 CN5 D6 PCle link 4 Present BE iB ae doa 5 PCle Switch PCI Express Mini Card CN6 D7 PCIe link 5 Present B 6 PCle Switch PCI ExpressCard CN8 D8 PCIe link 6 Present sme Sme E EB E E B2 aS E B3 ner iE 3E A PCI Express SEE Aa A Note Pu HEN a SM Bus Xa Xpress B11 The JTAG Interface is not ava
8. 5 213 V5 Power supply 5VDC 5 214 V5 Power supply 5VDC 5 215 V5 Power supply 5VDC 5 216 V5 Power supply 5VDC 5 217 V5 Power supply 5VDC 5 218 V5 Power supply 5VDC 5 219 V5 Power supply 5VDC 5 220 V5 Power supply 5VDC 5 221 V5 Power supply 5VDC 5 222 V5 Power supply 5VDC 5 223 V5 Power supply 5VDC 5 224 V5 Power supply 5VDC 5 225 V5 Power supply 5VDC 5 226 V5 Power supply 5VDC 5 227 V5 Power supply 5VDC 5 228 V5 Power supply 5VDC 5 229 V5 Power supply 5VDC 5 230 V5 Power supply 5VDC 5 Copyright 2009 congatec AG QEVAm 11 16 36 D E congatec 4 2 Subsystems of conga QEVAL 4 2 1 lC Bus The FC signals are available in different locations on the conga QEVAL including the feature connector CN35 described in section 5 10 of this document Additionally the conga QEVAL includes a socket for an IPC EEPROM CN29 that can be used for test purposes during the system development This 8 pin DIP socket can be used with different 2 wire serial EEPROMS for example 24C04 08 16 and can be accessed easily by using the I C control commands implemented in the Qseven EASI API driver Refer to the Qseven module s user s guide and the EASI programmers guide for details LU CN29 EEPROM Socket 4 2 2 HDA Audio W C The conga QEVAL has an HDA High Definition Audio codec Realtek ALC888 mounted on it The stereo audio output interface of this co
9. FLDINSTALL SDVO Field stall line 141 GND Power Ground 142 GND Power Ground 143 SDVO BLUE SDVO Blue line 144 SDVO TVCLKIN SDVO TV Out line 145 SDVO BLUE SDVO Blue line 146 SDVO TVCLKIN SDVO TV Out line 147 GND Power Ground 148 GND Power Ground 149 SDVO_RED SDVO Red line 150 SDVO CTRL DAT I2C based control clock for SDVO Copyright 2009 congatec AG QEVAm 11 15 36 Description E congatec the rhythm of embedded computing Description 151 SDVO RED SDVO Red line 152 SDVO CTRL CLK I2C based control data for SDVO 153 HDMI HPD Hot plug detection for HDMI 154 DP HPD Hot plug detection for Display port 155 PCIE CLK REF PCI Express Reference Clock 156 PCIE WAKE PCI Express Wake event 157 PCIE CLK REF PCI Express Reference Clock 158 PCIE RST Reset Signal for external devices 159 GND Power Ground 160 GND Power Ground 161 PCIE3_TX PCI Express Channel 3 Output 162 PCIE3_RX PCI Express Channel 3 Input 163 PCIE3 TX PCI Express Channel 3 Output 164 PCIE3 RX PCI Express Channel 3 Input 165 GND Power Ground 166 GND Power Ground 167 PCIE2 TX PCI Express Channel 2 Output 168 PCIE2 RX PCI Express Channel 2 Input 169 PCIE2 TX PCI Express Channel 2 Output 170 PCIE2 RX PCI Express Channel 2 Input 171 EXCDO_PERST Express Ca
10. SDO HD Audio Serial Data In 68 Il2C DAT I2C Bus Data 69 THRM Thermal Alarm active low 70 WDTRIG Watchdog trigger signal Copyright 2009 congatec AG QEVAm 11 14 36 Pin Signal Description Pin Signal congatec the rhythm of embedded computing M Description 71 THRMTRIP Thermal Trip indicates an overheating condition 72 WDOUT Watchdog event indicator 73 GND Power Ground 74 GND Power Ground 75 USB7_D USB Port 7 Differential Pair 76 USB6 D USB Port 6 Differential Pair 77 USB7 D USB Port 7 Differential Pair 78 USB6 D USB Port 6 Differential Pair 79 USB 6 7 OC Over current detect input 6 7 USB 80 USB 4 5 OC Over current detect input 4 5 USB 81 USB5_D USB Port 5 Differential Pair 82 USB4 D USB Port 4 Differential Pair 83 USB5_D USB Port 5 Differential Pair 84 USB4 D USB Port 4 Differential Pair 85 USB 2 3 OC Over current detect input 2 3 USB 86 USB 0 1 OC Over current detect input 0 1 USB 87 USB3_D USB Port 3 Differential Pair 88 USB2 D USB Port 2 Differential Pair 89 USB3_D USB Port 3 Differential Pair 90 USB2_D USB Port 2 Differential Pair 91 USB CL PRES USB Client present detect pin 92 RESERVED 93 USB1_D USB Port 1 Differential Pair 94 USBO_D USB Port 0 Differential Pair 95 USB1_D USB Port 1 Differential Pair 96 USBO D USB Port 0 Differential Pair 97
11. Suspend status 20 PWRBTN Z Power button 21 SLP_BTIN Sleep button 22 LID BTN LID button 23 GND Power Ground 24 GND Power Ground 25 GND Power Ground 26 PWGIN Power good input 27 BATLOW Battery low input 28 RSTBTN Reset button input 29 SATAO TX Serial ATA Channel 0 TX 30 SATA1_TX Serial ATA Channel 1 TX 31 SATAO TX Serial ATA Channel 0 TX 32 SATA1_TX Serial ATA Channel 1 TX 33 SATA_ACT Serial ATA Activity 34 GND Power Ground 35 SATAO_TX Serial ATA Channel 0 RX 36 SATA1_TX Serial ATA Channel 1 TX 37 SATAO TX Serial ATA Channel 0 RX 38 SATA1 TX Serial ATA Channel 1 TX 39 GND Power Ground 40 GND Power Ground 41 BlOS_DISABLE BIOS Module disable 42 SDIO_CLK SDIO Clock Output 43 SDIO_CD SDIO Card Detect 44 SDIO_LED SDIO LED 45 SDIO_CMD SDIO Command Response 46 SDIO_WP SDIO Write Protect 47 SDIO_PWR SDIO Power Enable 48 SDIO DAT1 SDIO Data Line 1 49 SDIO DATO SDIO Data Line 0 50 SDIO_DAT3 SDIO Data Line 3 51 SDIO DAT2 SDIO Data Line 2 52 SDIO DAT5 SDIO Data Line 5 53 SDIO_DAT4 SDIO Data Line 4 54 SDIO_DAT7 SDIO Data Line 7 55 SDIO_DAT6 SDIO Data Line 6 56 RESERVED 57 GND Power Ground 58 GND Power Ground 59 HDA SYNC HD Audio Synchronization 60 SMB CLK SMBus Clock line 61 HDA_RST HD Audio Codec Reset 62 SMB DAT SMBus Data line 63 HDA_BCLK HD Audio Serial Bit Clock 64 SMB_ALERT SMBus Alert input 65 HDA_SDI HD Audio Serial Data out 66 I2C_CLK I2C Bus Clock 67 HDA
12. driven active low x by external circuitry to signal an external wake up event x 33 N C 34 N C eae 35 N C 36 RSTBTN Reset Button Input Active low input This input may be RE driven active low by an external circuitry to reset the B Qseven module 37 GND Power Ground 38 GND Power Ground 39 PWBTN Power Button Low active power button input 40 PWGIN High active input for the Qseven module indicates that This signal is triggered on the falling edge power from the power supply is ready HHA Connector Type 40 pin 2 row 2 54mm grid female Copyright 2009 congatec AG QEVAm11 34 36 D E congatec the rhythm of embedded computing 6 conga QEVAL Mechanical Drawing 171 50 165 10 127 40 126 15 112 40 95 32 78 40 64 65 63 40 49 85 56 47 163 83 209 55 288 29 Wwaewewww i 293 40 Copyright 2009 congatec AG QEVAm 11 35 36 E congatec the rhythm of embedded computing 7 Industry Specifications The list below provides links to industry specifications that should be used as reference material when designing a Qseven carrier board Specification Link Qseven Specification http www qseven standard org PCI Express Base Specification Revision 2 0 http www pcisig com specifications Universal Serial Bus USB Specification
13. in materials or workmanship or due to non conformance to the agreed upon specifications will be repaired or exchanged at congatec AG s option and expense Customer will obtain a Return Material Authorization RMA number from congatec AG prior to returning the non conforming product freight prepaid congatec AG will pay for transporting the repaired or exchanged product to the customer Repaired replaced or exchanged product will be warranted for the repair warranty period in effect as of the date the repaired exchanged or replaced product is shipped by congatec AG or the remainder of the original warranty whichever is longer This Limited Warranty extends to congatec AG s direct customer only and is not assignable or transferable Except as set forth in writing in the Limited Warranty congatec AG makes no performance representations warranties or guarantees either express or implied oral or written with respect to the products including without limitation any implied warranty a of merchantability b of fitness for a particular purpose or c arising from course of performance course of dealing or usage of trade congatec AG shall in no event be liable to the end user for collateral or consequential damages of any kind congatec AG shall not otherwise be liable for loss damage or expense directly or indirectly arising from the use of the product or from any other cause The sole and exclusive remedy against congatec AG whether a claim
14. sleep state when this button is pressed The sleep button is connected to the Qseven module s SLP_BTN signal Reset Button The Qseven module and all connected components will perform a hard reset when this button is pressed The reset button is connected to the Qseven module s RSTBTN signal LID Button Pressing the LID button creates a low active signal used by the ACPI operating system to detect a LID switch and to bring the system into either a sleep state or to wake it up again The LID button is connected to the Qseven module s LID_BTN signal PC Speaker The board mounted speaker provides audible error code beep code information during POST The speaker is connected to the Qseven module s SPEAKER signal Copyright 2009 congatec AG QEVAm 11 congatec the rhythm of embedded computing LID SW4 9 Reset w o g Speaker U23 30 36 5 7 E congatec the rhythm of embedded computing Debug Display During the POST Power On Self Test the BIOS generates diagnostic progress codes POST codes to different I O ports usually port 80h If the POST fails execution stops and the last POST code generated is left at the respective port This code is useful for determining the point where an error occurred The conga QEVAL decodes these ports and displays their contents on 4 seven segment displays D24 to D27 Port 80 90 Port 84 94 2 gy
15. 1_S2 B1 12V A1 PRSNTZ21 S3 B2 12V A2 12V B2 12V A2 12V B3 N C A3 12V B3 N C A3 12V B4 GND A4 GND B4 GND A4 GND B5 SMB_CLK A5 N C B5 SMB CLK A5 N C B6 SMB DAT A6 N C B6 SMB DAT A6 N C B7 GND AT N C B7 GND AT N C B8 3 3V A8 N C B8 3 3V A8 N C B9 N C A9 3 3V B9 N C A9 3 3V B10 3 3V Standby A10 3 3V B10 3 3V Standby A10 3 3V B11 WAKEO A11 PCIE RST B11 WAKEO A11 PCIE RST B12 N C A12 GND B12 N C A12 GND GND A13 PCIE3_CLK GND A13 PCIE4_CLK B14 PCIE3_TX A14 PCIE3_CLK B14 PCIE4_TX A14 PCIEA4 CLK B15 PCIE3 TX A15 GND B15 PCIE4 TX A15 GND B16 GND A16 PCIE3_RX B16 GND A16 PCIE4 RX B17 PRSNT 2_S2 A17 PCIE3 RX B17 PRSNTZ2 S3 A17 PCIE4_RX B18 GND A18 GND B18 GND A18 GND Copyright 2009 congatec AG QEVAm 11 hi congatec the rhythm of embedded computing 25 36 D E congatec 4 2 10 ExpressCard and PCI Express Mini Card 4 2 10 1 ExpressCard The conga QEVAL is equipped with a ExpressCard slot connector CN8 ExpressCard is a small modular add in card designed to replace common PCMCIA and PC Cards It takes advantage of the scalable high bandwidth serial PCI Express and USB 2 0 interfaces to provide much higher data rates More information about the ExpressCard Standard can be found at http www expresscard org The following table lists the default pinout of the ExpressCard slot It utilizes USB port 6 and PCI Express link 6
16. 2 USB Ports 4 and 5 found on connector CN22 are supplied by suspend power and can be used to test wake up via USB functionality Connector CN20 USB B type can be used for USB client connection CN20 utilizes USB Port 1 USB connector pinout CN21 CN22 USB Client N2 Pin Signal USB Port 0 mee CN20 1 5V 2 DATA USB Port 1 7 gt Tom 3 DATA m 4 GND USB Port 2 u m w w 87654321 USB Port 3 gt gt USB Port 4 w gt Note front view USB Port 5 gt gt front view If USB Client connector CN20 is enabled within the Qseven module s BIOS setup program then the USB Port 1 connector CN21 is not available Copyright 2009 congatec AG QEVAm11 19 36 D E congatec 4 2 6 Ethernet 10 100 1000 The conga QEVAL provides a LAN interface via connector CN22 The following tables describe the pinout and configuration possibilities RJ45 socket pinout 1 Bidirectional pair A 2 Bidirectional pair A 3 Bidirectional pair B 4 Bidirectional pair C C N22 5 Bidirectional pair C 6 Bidirectional pair B 7 Bidirectional pair D 8 Bidirectional pair D RJ45 Socket LED descriptions LED Left Side Description 8765432 1 i C Off 10 Mbps link speed CIARA Green 100 Mbps link speed Ss Orange 1000 Mbps link speed front view LED Right Side Descript
17. 2 64672 509 Data Modul Iberia S L c Adolfo P rez Esquivel 3 Edificio Las Americas III Oficiana 40 28230 Parque Empresarial Madrid Las Rozas Spain Tel 34 916 366 458 Data Modul Ltd UK 3 Brindley Place Birmingham B 12J B United Kingdom Tel 44 121 698 8641 Data Modul Inc USA 275 Marcus Blvd Unit K Hauppauge NY 11788 USA Tel 631 951 0800 www data modul com embedded data modul com
18. DC 24 GND Power Ground Copyright 2009 congatec AG QEVAm 11 9 36 D E congatec the rhythm of embedded computing When using an ATX power supply the Qseven module will start after the power on button SW1 is pressed The ATX power supply can also be used in AT mode In this case the module will start after the power switch on the power supply is turned on The power supply mode can be configured using jumper CN41 Jumper CN41 Configuration Pwr On Power Mode 1 2 ATX Power supply default 2 3 ATX Power supply runs in AT mode SW1 Config CN41 EHH Connector Type O CN41 2 54mm grid jumper The input voltage can be disconnected from power sources through the use of switch SW6 SW6 Configuration 1 ON 1 3 Input power voltage is ON default OFF 2 3 Input power voltage is forced off 2 E The conga QEVAL can also be used with 12VDC power supply connector M5 and M6 The 3 3V and 5V used by some devices on the conga QEVAL are generated onboard from the 12V power supply Connector Configuration GND 12V M5 Ground M6 12VDC 5 M5 M6 era Connector Type 4mm diameter plug Copyright 2009 congatec AG QEVAm11 10 36 D E congatec 3 2 1 PWR OK Signal The Qseven specification defines the signal PWRGIN which is a HIGH active input from the main power supply to the module and indicates whether the power is good Jumper CN43 on the conga QEVAL provides t
19. EVAm 11 8 36 W E congatec the rhythm of embedded computing 3 Specifications 3 1 Mechanical Dimensions 293 4mm x 171 5mm Height approximately 37mm 3 2 Power Supply The conga QEVAL can be used with standard ATX Connector CN38 power supplies The 3 3V 5V and 5V power outputs of the ATX power supply are not used The following table lists the pinout for connector CN38 ATX Power Connector CN38 Pe e 24 23 22 geohe lUs s g e Ae S JU Na 2L Pin Signal Description Description 1 3 3V Power Supply 3 3VDC 13 3 3V Power Supply 3 3VDC 2 3 3V Power Supply 3 3VDC 14 12V Power Supply 12VDC 3 GND Power Ground 15 GND Power Ground 4 5V Power Supply 5VDC 16 PS_ON Power Supply On active low Short this pin to GND to switch power supply ON disconnect from GND to switch OFF 5 GND Power Ground 17 GND Power Ground 6 5V Power Supply 5VDC 18 GND Power Ground 7 GND Power Ground 19 GND Power Ground 8 PWR OK Power Ok A status signal generated by the power supply 20 5V Power Supply 5VDC to notify the computer that the DC operating voltages are within the ranges required for proper computer operation 9 5V SB Standby Power Supply 5VDC 21 5V Power Supply 5VDC 10 12V Power Supply 12DC 22 5V Power Supply 5VDC 11 12V Power Supply 12DC 23 5V Power Supply 5VDC 12 3 3V Power Supply 3 3V
20. GND Power Ground 98 GND Power Ground 99 LVDS_A0 LVDS Primary channel 0 100 LVDS_BO LVDS Secondary channel 0 101 LVDS_AO LVDS Primary channel 0 102 LVDS BO LVDS Secondary channel 0 103 LVDS_A1 LVDS Primary channel 1 104 LVDS_Bi LVDS Secondary channel 1 105 LVDS A1 LVDS Primary channel 1 106 LVDS B1 LVDS Secondary channel 1 107 LVDS A2 LVDS Primary channel 2 108 LVDS_B2 LVDS Secondary channel 2 109 LVDS A2 LVDS Primary channel 2 110 LVDS B2 LVDS Secondary channel 2 111 LVDS PPEN LVDS Power enable 112 LVDS_BPEN LVDS Backlight enable 113 LVDS A3 LVDS Primary channel 3 114 LVDS_B3 LVDS Secondary channel 3 115 LVDS A3 LVDS Primary channel 3 116 LVDS B3 LVDS Secondary channel 3 117 GND Power Ground 118 GND Power Ground 119 LVDS A CLK LVDS A CLK 120 LVDS A CLK LVDS A CLK 121 LVDS A CLK LVDS A CLK 122 LVDS A CLK LVDS A CLK 123 LVDS BLT CTRL PWM Backlight brightness 124 RESERVED 125 LVDS DID DAT DDC Display ID Data line 126 LVDS BLC DAT SSC clock chip data line 127 LVDS DID CLK DDC Display ID Clock line 128 LVDS BLC CLK SSC clock chip clock line 129 RESERVED 130 RESERVED 131 SDVO_BCLK SDVO Clock line 132 SDVO_INT SDVO Interrupt line 133 SDVO BCLK SDVO Clock line 134 SDVO INT SDVO Interrupt line 135 GND Power Ground 136 GND Power Ground 137 SDVO GREEN SDVO Green line 138 SDVO_FLDINSTALL SDVO Field stall line 139 SDVO GREEN SDVO Green line 140 SDVO
21. S Channel A differential pairs 10 LVDS Ai LVDS Channel A differential pairs 11 LVDS BLEN Controls backlight enable see jumper CN14 12 LVDS A2 LVDS Channel A differential pairs 13 LVDS A2 LVDS Channel A differential pairs 14 N C 15 VDS A CLK LVDS Channel A differential clock 16 LVDS A CLK LVDS Channel A differential clock 17 N C 18 LVDS_A3 LVDS Channel A differential pairs 19 LVDS A3 LVDS Channel A differential pairs 20 GND 21 LVDS BO LVDS Channel B differential pairs 22 LVDS_BO LVDS Channel B differential pairs 23 GND Power Ground 24 LVDS_B1 LVDS Channel B differential pairs 25 LVDS Bit LVDS Channel B differential pairs 26 GND Power Ground 27 LVDS_B2 LVDS Channel B differential pairs 28 LVDS_B2 LVDS Chanel B differential pairs 29 GND Power Ground 30 LVDS_B_CLK LVDS C el B ential clock 31 LVDS B CLK LVDS Channel B differential clock 32 N C 33 LVDS_B3 LVDS Channel B differential pairs 34 LVDS_B3 LVDS Channel B differential pairs HFH Connector Type LVDS X13 34 pin 2 row 2mm grid female CN1 2 28 4E 6E 8 108126148168 18 208 228 24H 26H 2388308 328348 38 5H 7m 9116136151719 216236256276 298 2 1E 338 Copyright 2009 congatec AG QEVAm 11 21 36 D E congatec the rhythm of embedded computing The polarity of the backlight enable signal LVDS_BLEN from the Qseven module can be set up using configuration jumper CN14 Jumper CN14 Configuration Backlight Polarity 1 2 Backlight en
22. able HIGH active default Confi 2 3 Backlight enable LOW active onig CN14 EEREH Connector Type CN14 2 54mm grid jumper 2m 3m 4 2 8 1 Flat Panel and Backlight Power Supply The power supply for flat panels and their backlight inverter is available on connector CN15 Panel and backlight voltage can be selected using jumpers CN13 and CN11 The table below describes the pinout for connector CN15 Pin Signal Pin Signal 1 SW_VDD 1 5A Fuse 2 SW BACK 0 75A Fuse LCD Power 3 5V 1 5A Fuse 4 12V 0 75A Fuse CN15 5 DIGON LVDS PPEN 6 BL ON LVDS BLEN 7m m On M ON 7 Potentiometer Low Terminal 8 Potentiometer Wiper Terminal 9 GND 10 GND Fe Connector Type CN15 10 pin 2 row 2 54 mm grid female z LCD Power Config Jumper CN13 Configuration CN13 1 2 3 3VDC LCD Voltage 2 3 5VDC LCD Voltage default 2m 3m Jumper CN11 Configuration f 1 2 12VDC Backlight Voltage default Backlight Power Config 2 3 5VDC Backlight Voltage CN11 HA Connector Type 2m 3m CN11 and CN13 2 54mm grid jumper Copyright 2009 congatec AG QEVAm 11 22 36 D E congatec the rhythm of embedded computing 4 2 8 2 Flat Panel and Backlight Power Supply Connection The following diagram shows a typical connection possibility for powering panel backlight by either the SW_VDD SW_BACK signals or by using DIGON BL_ON LVDS_PPEN LVDS_BLEN for external power switches Signals 1 10 corr
23. an external high performance PCI Express Graphics card It supports a theoretical bandwidth of up to 4 GB s For information about the pinout of the PEG port connector refer to the PCI Express Card Electromechanical Specification Rev 1 1 CN10 To L OOOO LI AOOO OU OO DOLO UD OL OO LU L o gt Note The conga QEVAL supports ADD2 N cards only in the PEG slot The conga QEVAL does not support ADD2 R cards Copyright 2009 congatec AG QEVAm11 28 36 zy E congatec 4 2 12 SDIO Interface The Qseven module s SDIO interface is used on the conga QEVAL to provide a SD miniSD MMC MMC PLUS card socket Yellow LED D12 indicates activity on the SDIO interface D12 4 2 12 1 SD MMC Card Socket The conga QEVAL provides one SD MMC socket CN18 The following table lists the pinout of socket CN18 Pin Signal Pin Signal 1 SDIO DataLine3 10 SDIO_WP C N 1 8 2 SDIO CMD 11 GND 3 GND 12 SDIO CD 4 3 3V 13 GND 5 SDIOCLK 14 GND 6 GND 15 GND 7 SDIODataLineO 16 GND 8 SDIO Data Line 1 17 GND 9 SDIO Data Line 2 Copyright 2009 congatec AG QEVAm 11 29 36 5 1 5 2 5 3 5 4 5 5 ES Additional Features Power Button The Qseven module will perform a power up sequence when this button is pressed The power button is connected to the Qseven module s PWRBTN signal Sleep Button The Qseven module will enter a
24. any system wake up event invokes the chipset of the module to deassert the SUS S3 signal This results in a system transition to Full On SO The way Suspend to RAM is implemented on a Qseven module may differ depending on the module manufacturer For this reason it is recommended that a hardware jumper be implemented on the carrier board in order to provide the ability to choose if the PS ONZ signal should be controlled either by the SUS_S3 signal or SUS_S5 signal On the conga QEVAL this is accomplished through the use of jumper CN48 Jumper CN48 Configuration Control signal 1 2 ATX Power supply controlled via S3 default Config 2 3 ATX Power supply controlled via S5 CN48 FRH Connector Type Be CN48 2 54mm grid jumper Copyright 2009 congatec AG QEVAm11 12 36 D E congatec 3 3 CMOS Battery The conga QEVAL includes a battery that supplies the RTC and CMOS memory of the Qseven module The battery needs to provide 3V of power The specified battery type is CR2032 It is possible to disconnect the CMOS battery using jumper CN34 Jumper CN34 Configuration 1 2 Normal operation battery connected default CMOS Battery 2 3 Battery disconnected Config CN34 RFH Connector Type CN34 2 54mm grid jumper bs Danger of explosion if battery is incorrectly replaced Replace only with the same or equivalent type recommended by the manufacturer Dispose of used batteries according to the manufacturer
25. dec is available on the connector described below The drivers for this codec can be found on the congatec website at www congatec com in the Drivers section under conga QEVAL Stereo Jack1 Signal Tip Line Input Left Audio Ring Line Input Right CN24 Sleeve Ground cz Tip Line Output Left Ring Line Output Right e 2 E Sleeve Ground eo Tip Microphone Input Left Ring Microphone Input Right front view Sleeve Analog Ground Fee Connector Type CN24 triple 3 5mm stereo plug Copyright 2009 congatec AG QEVAm11 17 36 D E congatec the rhythm of embedded computing CD IN connector CN26 1 CD Input Left CD IN nput Le 2 Analog Ground CN26 3 Analog Ground EEEE 4 CD Input Right 1234 S PDIF I O connector CN23 1 5V Power supply 2 Analog Ground S PDIF I O 3 S PDIF Output CN23 4 Analog Ground m m om 5 S PDIF Input ia 3m om 6 Analog Ground23 HFA Connector Type CN26 4 pin 2 54mm grid female CN23 6 pin 2 row 2 54mm grid female 4 2 3 LPC Super I O Device The conga QEVAL utilizes a Super I O controller that provides additional interfaces such as two serial ports via connector CN27 The Winbond W83627DHG controller is connected to the LPC Bus of the Qseven module Serial ports COM1 and COM2 follow the RS232 standard Pin COM1 COM2 COM Ports The Super I O controller can be config
26. e Qseven O interfaces available and then choose what are suitable for their application Qseven applications are scalable which means once a carrier board has been created there is the ability to diversify the product range through the use of different performance class Qseven modules Simply unplug one module and replace it with another no need to redesign the carrier board This document describes the features available on the Qseven evaluation carrier board Additionally the schematics for the Qseven evaluation carrier board can be found on the congatec website Copyright 2009 congatec AG QEVAm 11 7 36 congatec the rhythm of embedded computing The connector layout picture below shows each connector and its name designator Jumpers and their respective Pin 1 are also shown Select the Adobe Zoom In Tool and zoom in on a given component to see its designator Hover over the component and the Zoom In Tool will change indicating there is a link Click on the link to navigate to the area in the document where the component is described Use the mouse icon in the top left hand corner of the destination page to return to the connector layout picture HBHDDBHHODHHO m D WU N NM M BUDBHUUHHUUH e Tal T SLEEP 9 CN49 CN36 ij Cna CN4B LAN LEDs POWERED FROM sey voLTAGE CE MAIN VOLTAGE g 8 g E o Je O SPDIF T70 t und 2 GNO_PROBE S a Copyright 2009 congatec AG Q
27. ed computing 1 Introduction 1 1 Qseven Concept The Qseven concept is an off the shelf multi vendor Single Board Computer that integrates all the core components of a common PC and is mounted onto an application specific carrier board Qseven modules have a standardized form factor of 70mm x 70mm and a specified pinout based on the high speed MXM system connector and the pinout remains the same regardless of the vendor The Qseven module provides the functional requirements for an embedded application These functions include but are not limited to graphics sound mass storage network interface and multiple USB ports A single ruggedized MXM connector provides the carrier board interface to carry all the I O signals to and from the Qseven module This MXM connector is a well known and proven high speed signal interface connector that is commonly used for high speed PCI Express graphics cards in notebooks Carrier board designers can utilize as little or as many of the I O interfaces as deemed necessary The carrier board can therefore provide all the interface connectors required to attach the system to the application specific peripherals This versatility allows the designer to create a dense and optimized package which results in a more reliable product while simplifying system integration The Qseven evaluation carrier board provides carrier board designers with a reference design platform and the opportunity to test all th
28. eo components HDMI High Definition Multimedia Interface HDMI supports standard enhanced or high definition video plus multi channel digital audio on a single cable TMDS Transition Minimized Differential Signaling TMDS is a signaling interface defined by Silicon Image that is used for DVI and HDMI DVI Digital Visual Interface is a video interface standard developed by the Digital Display Working Group DDWG LPC Low Pin Count a low speed interface used for peripheral circuits such as Super I O controllers which typically combine legacy device support into a single IC PC Bus Inter Integrated Circuit Bus is a simple two wire bus with a software defined protocol that was developed to provide the communications link between integrated circuits in a system SM Bus System Management Bus is a popular derivative of the I C bus GBE Gigabit Ethernet LVDS Low Voltage Differential Signaling SDVO Serial Digital Video Out is a proprietary technology introduced by Intel to add additional video signaling interfaces to a system DDC Display Data Channel is an I C bus interface between a display and a graphics adapter N C Not connected N A Not available T B D To be determined Technical Support congatec AG technicians and engineers are committed to providing the best possible technical support for our customers so that our products can be easily used and implemented We request that you first visit our website at www congatec com for the late
29. espond to signals 1 10 found on the CN15 connector CN11 CN13 and CN14 represent jumpers CN11 CN13 and CN14 found on the conga QEVAL The conga QEVAL carrier board is equipped with a Maxim MAX5362 device referred to in the diagram below as DA Converter CNI5 0 75A peseccc nee e ee oeeeeesa 12V t 4 12V Lsa d Tv tie 3 45V 4333V i cnir t CNI3 i o b Pow ED LVDS BLEN LVDS PPEN LSA i l H 1 SW_VDD H 5 DIGON 075A 2 SW_BACK 2i 6 6 i ae pial 6 BL ON CN14 i 8 WIPER E n 7 DA Converter 7 LOW 9 GND Copyright 2009 congatec AG QEVAm11 23 36 Zz 4 2 8 3 o gt Note 4 2 9 E congatec the rhythm of embedded computing Flat Panel Configuration Data The flat panel configuration data EPI extended EDID 1 3 file for most common displays is included in the congatec Qseven CPU module s system BIOS The customer also has the possibility to use a customized EPI extended EDID 1 3 file that can be stored in a serial EEPROM located on the conga QEVAL DIL 8 socket CN16 LI LI LI LI CN16 EEPROM Socket LLLI Supported EEPROMs 24C02 24C04 and 24C16 at address AOh PCI Express x1 Connectors The Qseven module is capable of supporting up to 4 x1 PCI Express links The conga QEVAL utilizes a PCle switch connected to PCI Express Link
30. he ability to choose different settings for this signal Jumper CN43 Configuration PWGIN Config 1 2 PWGIN generated by Pull up resistor default 3 4 PWGIN generated by ATX power source C N43 5 6 PWGIN generated by DC DC converter m 4m 6m 3m 5m ERE Connector Type CN43 2 54mm grid jumper 3 2 2 Power Status LEDs D30 D32 and D40 D42 The six green status LEDs D30 D32 and D40 D42 indicate different power states of the conga QEVAL Refer to the following table for detailed information LEDs D30 D32 Power state and D40 D42 All Off No power applied D30 D32 D30 5V Standby power is present D40 D42 D31 5V is present DEY 3 3V is present D40 12V is present D41 12V_IN is present D42 5V_SBY_IN is present Copyright 2009 congatec AG QEVAm11 11 36 D E congatec the rhythm of embedded computing 3 2 3 Power up Control The native system Power up support of Qseven modules uses the SUS_S3 signal to control the PS_ON signal which is used to switch the ATX power supply on or off When using the SUS_S3 signal the Qseven module is capable of supporting Suspend to RAM S3 When the system goes to Suspend to RAM S3 or Soft Off 85 the SUS S3 signal is asserted by the chipset of the module Through the use of an inverter the low active PS ONZ signal goes high and switches off the ATX power supply Vice versa if the system resides in a power down system state
31. ilable on the 4 PCI Express slots 0 to 3 Po Switch pum PCle Slot 2 PCle Slot 3 Link 3 CN4 CN5 1 gt E a es Bis EE Bis Eg S B B17 B18 Copyright 2009 congatec AG QEVAm11 24 36 PCI Express Slot O Link 1 Connector CN2 PCI Express Slot 1 Link 2 Connector CN3 Pin Signal Pin Signal Pin Signal Pin Signal B1 12V A1 PRSNT 21 SO B1 12V A1 PRSNT 1 B2 12V A2 12V B2 12V A2 12V B3 N C A3 12V B3 N C A3 12V B4 GND A4 GND B4 GND A4 GND B5 SMB_CLK A5 N C B5 SMB_CLK A5 N C B6 SMB_DAT A6 N C B6 SMB_DAT A6 N C B7 GND A7 N C B7 GND A7 N C B8 3 3V A8 N C B8 3 3V A8 N C B9 N C A9 3 3V B9 N C A9 3 3V B10 3 3V Standby A10 3 3V B10 3 3V Standby A10 3 3V B11 WAKEO A11 PCIE RST B11 WAKEO A11 PCIE_RST B12 N C A12 GND B12 N C A12 GND B13 GND A13 PCIE1_CLK B13 GND A13 PCIE2 CLK B14 PCIE1_TX A14 PCIE1 CLK B14 PCIE2 TX A14 PCIE2 CLK B15 PCIE1 TX A15 GND B15 PCIE2 TX A15 GND B16 GND A16 PCIE1_RX B16 GND A16 PCIE2 RX B17 PRSNT22 SO A17 PCIE1 RX B17 PRSNTZ2 S1 A17 PCIE2 RX B18 GND A18 GND B18 GND A18 GND Pin Signal PCI Express Slot 2 Link 3 Connector CN4 Pin Signal Pin Signal Pin PCI Express Slot 3 Link 4 Connector CN5 PCle switch Signal B1 12V A1 PRSNT
32. ion Off No link Steady On Link established no activity detected Blinking Link established activity detected Jumper CN47 provides the ability to select the power source for the LAN controller Jumper CN47 Description LAN Power Source 1 2 LAN controller is powered from standby voltage default P 2 3 LAN controller is powered from main voltage Config CN47 20 2m HEH Connector Type 8 pin RJ45 plug CN47 2 54mm grid jumper Copyright 2009 congatec AG QEVAm11 20 36 congatec the rhythm of embedded computing hi 4 2 7 Serial ATA The conga QEVAL provides two SATA drive connectors CN17 and CN19 The yellow LED D11 indicates when there is activity on either of the SATA interfaces The following table describes the pinout of the SATA connectors 1 GND SATA1 CN17 SATAO CN19 D11 2 TX 1294 9G r 429489 3 nc 4 GND i 5 RX Serial ATA Channel 0 J 6 RX Serial ATA Channel 1 7 GND 4 2 8 LVDS Flat Panel Interface Pin LVDS Output Description Pin LVDS Output Description 1 LVDS DID DAT DisplaylD DDC data line used for LVDS flat panel detection 2 LVDS DID CLK DisplayID DDC clock line used for LVDS flat panel detection 3 N C 4 N C 5 GND Power Ground 6 LVDS_AO LVDS Channel A differential pairs 7 LVDS A0 LVDS Channel A differential pairs 8 LVDS PPEN Controls panel power enable 9 LVDS A1 LVD
33. itional expenditure of a redesign The PCI Express Mini Card utilizes USB port 7 and PCI Express link 5 The following table lists the default pinout of the PCI Express Mini Card 1 PCIE WAKEZ 2 3 3V 3 RSVD 4 GND 5 RSVD 6 1 5V 7 CLKREQ 8 N C 9 GND 10 N C 11 PCIE5_CLK 12 N C 13 PCIE5_CLK 14 N C 15 GND 16 N C 17 RSVD 18 GND 19 RSVD 20 RSVD 21 GND 22 PCIE_RST 23 PCIE5_RX 24 3 3V Standby 25 PCIE5 RX 26 GND 27 GND 28 1 5V 29 GND 30 SMB_CLK 31 PCIE5_TX 32 SMB_DATA 33 PCIE5_TX 34 GND 35 GND 36 USB_P7 37 RSVD 38 USB_P7 39 RSVD 40 GND 41 RSVD 42 LED_WWAN 43 RSVD 44 LED_WLAN 45 RSVD 46 LED_WPAN 47 RSVD 48 1 5V 49 RSVD 50 GND 51 RSVD 52 3 3V gt Note The PCI Mini Card socket has three different red LEDs to indicate the presence of certain area network types They are as follows LED Indicates WWAN Wireless Wide Area Network WLAN Wireless Local Area Network D3 WPAN Wireless Personal Area Network D1 D3 CN6 The ExpressCard socket uses USB Port 7 This port is USB 2 0 compliant only it is not backwards compatible to USB 1 1 and therefore does not support the connection of USB 1 1 devices Copyright 2009 congatec AG QEVAm 11 27 36 D E congatec 4 2 11 PCI Express Graphics PEG The PEG Port connector CN10 utilizes PCI Express lanes 16 32 and is suitable to drive a x16 link for
34. rd slot 0 reset 172 EXCD1 PERST Express Card slot 1 reset 173 PCIE1_TX PCI Express Channel 1 Output 174 PCIE1_RX PCI Express Channel 1 Input 175 PCIE1 TX PCI Express Channel 1 Output 176 PCIE1 RX PCI Express Channel 1 Input 177 EXCDO CPPE Express Card slot 0 Capable Req 178 EXCD1_CPPE Express Card slot 0 Capable Req 179 PCIEO TX PCI Express Channel 0 Output 180 PCIEO_RX PCI Express Channel 0 Input 181 PCIEO TX PCI Express Channel 0 Output 182 PCIEO RX PCI Express Channel 0 Input 183 GND Power Ground 184 GND Power Ground 185 LPC ADO LPC Interface Address Data 0 186 LPC AD1 LPC Interface Address Data 1 187 LPC AD2 LPC Interface Address Data 0 188 LPC_AD3 LPC Interface Address Data 3 189 LPC CLK LPC Interface Clock 190 LPC_FRAME LPC frame indicator 191 SERIRQ Serialized interrupt 192 LPC LDRQ LPC DMA request 193 V3_RTC 3V backup cell input 194 SPKR Output for audio enunciator 195 FAN TACHOIN Fan tachometer input 196 FAN PWMOUT Fan speed control PWM 197 GND Power Ground 198 GND Power Ground 199 RESERVED 200 RESERVED 201 RESERVED 202 RESERVED 203 RESERVED 204 RESERVED 205 VCC_5V_SB1 5VDC Standby 5 206 VCC 5V SB2 5VDC Standby 5 207 Q7 MFGO Do not connect on carrier board 208 Q7 MFGO Do not connect on carrier board 209 Q7 MFG1 Do not connect on carrier board 210 Q7 MFG1 Do not connect on carrier board 211 V5 Power supply 5VDC 5 212 V5 Power supply 5VDC
35. s instructions 2H 3m To fulfill the requirements of the EN60950 the conga QEVAL incorporates two current limiting devices resistor and diode in the battery power supply path 3 4 Environmental Specifications Temperature Operation 0 to 60 C Storage 20 to 80 C Humidity Operation 10 to 90 Storage 5 to 95 The above operating temperatures must be strictly adhered to at all times Humidity specifications are for non condensing conditions Copyright 2009 congatec AG QEVAm 11 13 36 Zz hi congatec the rhythm of embedded computing 4 Connector Description 4 1 Connector CN1 Pinout Signal Description Pin Signal Description 1 GND Power Ground 2 GND Power Ground 3 GBE_MDI3 Gigabit Ethernet MDI3 4 GBE_MDI2 Gigabit Ethernet MDI2 5 GBE_MDI3 Gigabit Ethernet MDI3 6 GBE MDI2 Gigabit Ethernet MDI2 7 GBE_LINK100 100 Mbps link speed 8 GBE_LINK1000 1000 Mbps link speed 9 GBE_MDI1 Gigabit Ethernet MDI1 10 GBE_MDIO Gigabit Ethernet MDIO 11 GBE MDI1 Gigabit Ethernet MDI1 12 GBE MDIO Gigabit Ethernet MDIO 13 GBE LINK Gigabit Ethernet Link indicator 14 GBE ACT Gigabit Ethernet Activity indicator 15 GBE CTREF Reference voltage for GBE 16 SUS_S5 S5 Soft OFF shutdown state 17 WAKE External system wake event 18 SUS S3f S3 Suspend to RAM SLP 19 SUS_STAT
36. s is Copyright 2009 congatec AG QEVAm 11 3 36 E congatec the rhythm of embedded computing Terminology Term Description PCI Express PCle Peripheral Component Interface Express next generation high speed Serialized I O bus PCI Express Lane One PCI Express Lane is a set of 4 signals that contains two differential lines for Transmitter and two differential lines for Receiver Clocking information is embedded into the data stream X1 X2 x4 x16 x1 refers to one PCI Express Lane of basic bandwidth x2 to a collection of two PCI Express Lanes etc Also referred to as x1 x2 x4 or x16 link ExpressCard A PCMCIA standard built on the latest USB 2 0 and PCI Express buses PCI Express Mini Card PCI Express Mini Card add in card is a small size unique form factor optimized for mobile computing platforms MMCplus MMCplus was defined for first time in MMC System Specification v4 0 MMCplus is backward compatible with MMC MMCplus has 13 pins SDIO card SDIO Secure Digital Input Output is a non volatile memory card format developed for use in portable devices USB Universal Serial Bus SATA Serial AT Attachment serial interface standard for hard disks HDA High Definition Audio S PDIF S PDIF Sony Philips Digital Interconnect Format specifies a Data Link Layer protocol and choice of Physical Layer specifications for carrying digital audio signals between devices and ster
37. seees 13 59 Fan Connector and Power Configuration 32 5 10 Feature Connector 34 4 Connector Description ssssss RR 14 6 conga QEVAL Mechanical Drawing eeessssssss 35 4 2 Subsystems of conga QEVAL ssseseee 17 4 2 1 esi 17 T Industry Specifications MMC T P 36 4 2 2 FIDA v Po o DLE 17 4 2 3 LPC Super I O Device ssssmm MM 18 4 2 4 LPC Firmware Hub sssss eem 19 4 2 5 Universal Serial Bus LISB air pr diact petro E eter R dn 19 4 2 6 Ethernet 10 100 1000 sse 20 4 2 7 Senal ATA EE 21 4 2 8 LVDS Flat Panel Interface cccccccceccceeeceeeeeeeeeeeeeeeeeeeteees 21 4 2 8 1 Flat Panel and Backlight Power Supply 22 4 2 8 2 Flat Panel and Backlight Power Supply Connection 23 4 2 8 3 Flat Panel Configuration Data seeeeeee 24 4 2 9 PCI Express x1 COnmme tors ccccccccccceceeeeeeeeeeeeeeeeeeeeteeetenees 24 4 2 10 ExpressCard and PCI Express Mini Card 26 4 2 10 1 ExpressCard ssssssssssseseesseeneeneeneeneee nennen 26 4 2 10 2 PCI Express Mini Card ssssssssmm 27 4 2 11 PCI Express Graphics PEG ccccsscceessseeeeeeeeeeeeeeeseeeees 28 Copyright 2009 congatec AG QEVAm 11 6 36 E congatec the rhythm of embedd
38. sound in contract warranty tort or any other legal theory shall be repair or replacement of the product only digs Ap Certification M R congatec AG is certified to DIN EN ISO 9001 2000 standard INTERNATIONAL CERTIFICATION Copyright 2009 congatec AG QEVAm11 5 36 E congatec the rhythm of embedded computing Contents 1 INthODUCTION 1c NT 7 4 2 12 SDIO Internatet adina ra a aE R EAE 29 1 1 Qseven Concept 7 4 2 12 1 SD MMC Card Sockett cccccccccccccccccecceeeeeeeeeeeeeeeeeeeeeeseeees 29 2 ES RRP LCs JUN czsaares est csssuaetstincactaceeseasgettentcrsiesacaceastraaeanee 8 5 Additional Features RTT 30 5 1 Power Button sssssssssee meme 30 3 Specifications eeesesssssssssseseeeeenerennre nennen 9 5 2 Sleep Button sees tnnnn tnn tn thin tna th dana n 30 3 1 Mechanical Dimensions eene 9 5 3 Reset Button eessessssesseesennee nennen nne nen nenne nenas 30 3 2 Power Supply X 9 5 4 HD Bt RENT 30 3 2 1 PWR_OK Signal OEC 11 5 5 PC Speaker iunctum ier did qixRiupERiN RR E EE MN IE 30 3 22 Power Status LEDs D30 D32 and D40 D42 s 11 5 6 Debug Display EE 31 3 2 3 Power up Control uos as etressd n qebsami ences sede eH duas S San Hoax iE 12 9 7 Internal Use Only Connectors seen 31 3 3 CMOS Battery eM 13 5 8 Ground Probes EE II RI REED ERIS 32 3 4 Environmental Specifications scsss
39. st documentation utilities and drivers which have been made available to assist you If you still require assistance after visiting our website then please contact our technical support department by email at support congatec com Copyright 2009 congatec AG QEVAm 11 4 36 E congatec the rhythm of embedded computing Electrostatic Sensitive Device All electronic parts described in this user s guide are electrostatic sensitive devices and are packaged accordingly Do not open or handle a carrier board or module except at an electrostatic free workstation Additionally do not ship or store electronic devices near strong electrostatic electromagnetic magnetic or radioactive fields unless the device is contained within its original manufacturer s packaging Trademarks All Trademarks and Registered Trademarks used in this user s guide whether marked as Trademarks or not marked are declared to belong to the owner s Warranty congatec AG makes no representation warranty or guaranty express or implied regarding the products except its standard form of limited warranty Limited Warranty congatec AG may in its sole discretion modify its Limited Warranty at any time and from time to time Beginning on the date of shipment to its direct customer and continuing for the published warranty period congatec AG represents that the products are new and warrants that each product failing to function properly under normal use due to a defect
40. ured using the SW5 dip switch SW5 1 DCD DCD CN27 can be used to either disable the Super I O or configure its base address The 2 RXD JRXD following table describes the settings for SW5 3 TXD TXD 4 DTR DTR Dips Configuration SW5 5 GND GND 1ON OFF Super I O Enabled Disabled ON default 6 DSR DSR 2 N C 7 RTS _ RTS 3 ON 4 OFF Super I O configured for address 4Eh a E 3 OFF 4 ON Super I O configured for address 2Eh default HHH Connector Type CN27 2x 9 pin D SUB female Copyright 2009 congatec AG QEVAm11 18 36 D E congatec 4 2 4 LPC Firmware Hub The conga QEVAL offers the possibility to boot the Qseven CPU module from an external firmware hub This can be very useful when a customized BIOS must be evaluated The evaluation carrier board includes one 32 lead PLCC socket for one LPC firmware hub socket CN30 With jumper CN31 the user can configure whether the Qseven module should boot from its onboard BIOS or from a BIOS located in the external firmware hub The yellow LED D23 is lit when the Qseven module boots from the external firmware hub Jumper CN31 Configuration S1 Boot 1 2 Qseven module boots from external FWH CN30 Confi PLCC Socket D23 2 3 Qseven module boots from onboard FWH default ontig FA Connector Type Es CN31 2 54mm grid jumper 4 2 5 Universal Serial Bus USB The conga QEVAL provides 6 USB ports USB Ports 0 5 via connectors CN21 and CN2
41. user s guide or any other information contained herein or the use thereof Intended Audience This user s guide is intended for technically qualified personnel It is not intended for general audiences Lead Free Designs RoHS All congatec AG products are created from lead free components and are completely RoHS compliant Copyright 2009 congatec AG QEVAm 11 2 36 E congatec the rhythm of embedded computing Symbols The following symbols are used in this user s guide bs Warnings indicate conditions that if not observed can cause personal injury m Cautions warn the user about how to prevent damage to hardware or loss of data o gt Note Notes call attention to important information that should be observed EFA Connector Type Describes the connector that must be used with the Qseven evaluation carrier board not the connector found on the Qseven evaluation carrier board Zz Link to connector layout diagram This link icon is located in the top left corner of each page It provides a direct link to the connector layout diagram on page 8 of this document Copyright Notice Copyright 2009 congatec AG All rights reserved All text pictures and graphics are protected by copyrights No copying is permitted without written permission from congatec AG congatec AG has made every attempt to ensure that the information in this document is accurate yet the information contained within is supplied a
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