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MSC Q7-MB-EP6 

 

User Manual 

 

20 / 35 

Pin 

Signal name 

Function 

11 

 

LVDS Positive data signal (+) 
Display Port primary channel data signal pair 3 (+) 

12 

LVDS_B0- 
eDP1_TX0- 

LVDS Negative data signal (-) 
Display Port secondary channel data signal pair 0(-) 

13 

 

LVDS Positive data signal (+) 
Display Port secondary channel data signal pair 0(+) 

14 

GND 

Ground 

15 

LVDS_B1- 
eDP1_TX1- 

LVDS Negative data signal (-) 
Display Port secondary channel data signal pair 1(-) 

16 

 

LVDS Positive data signal (+) 
Display Port secondary channel data signal pair 1(+) 

17 

GND 

Ground 

18 

LVDS_B2- 
eDP1_TX2- 

LVDS Negative data signal (-) 
Display Port secondary channel data signal pair 2(-) 

19 

 

LVDS Positive data signal (+) 
Display Port secondary channel data signal pair 2(+) 

20 

LVDS_B_CLK- 
eDP1_AUX- 

LVDS Negative clock signal (-) 
Display Port secondary auxiliary channel(-) 

21 

LVD 

LVDS Positive clock signal (+) 
Display Port secondary auxiliary c) 

22 

LVDS_B3- 
eDP1_TX3- 

LVDS Negative data signal (-) 
Display Port secondary channel data signal pair 3(-) 

23 

 

LVDS Positive data signal (+) 
Display Port secondary channel data signal pair 3(+) 

24 

GND 

Ground 

25 

PANEL_I2C_DAT 
(eDP0_HPD#) 

I2C Signal 
(Primary Channel Hot Plug Detect) 

26 

LVDS_PPEN 

Panel Power Enable 

27 

PANEL_I2C_CLK 
(eDP1_HPD#) 

I2C Signal 
(Secondary Channel Hot Plug Detect) 

28 

VCC 

Power Supply: +3.3V or +5V or +12V 

29 

VCC 

Power Supply: +3.3V or +5V or +12V 

30 

VCC 

Power Supply: +3.3V or +5V or +12V 

Table  4 Pinout JILI30 connector X801 

  Backlight Inverter Interface (X802) 

The backlight inverter (for CCFL) or LED driver (for CCD) is attached using this 5 pin 
connector X802. 

The supply voltage (VCC) of the backlight can be selected with a jumper on X803 for 12V, 
5V or 3.3V. 

The inverter or LED driver can be turned on or off using the BLON signal. The polarity of the 
BLON signal is selected with a jumper on X803. 

The brightness of the backlight is controlled via the VCON signal. 

The LVDS_BKLT_CTRL signal coming from the Qseven

TM

 module usually provides a PWM 

signal. Depending on the settings of jumpers on X803 the following brightness control signals 
can be applied: 

  PWM signal either inverted or non-inverted 

Summary of Contents for Qseven MSC Q7-MB-EP6

Page 1: ...www msc technologies eu QsevenTM Baseboard MSC Q7 MB EP6 REV 1 1 2020 05 07 User Manual ...

Page 2: ...r purpose is implied The information in this document is provided as is and is subject to change without notice EMC Rules This unit has to be installed in a shielded housing If not installed in a properly shielded enclosure and used in accordance with the instruction manual this product may cause radio interference in which case the user may be required to take adequate measures at his or her owns...

Page 3: ...re contacting the Technical Support please consult the respective pages on our web site at www msc technologies eu for the latest documentation drivers and software downloads If the information provided there does not solve your problem please contact our Technical Support Phone 49 8165 906 200 Fax 49 8165 906 201 Email support msc technologies eu ...

Page 4: ... 20 LVDS EEPROM 21 LVDS panel jumper settings X803 X804 X805 21 3 3 4 1 Display power jumper 21 3 3 4 2 Backlight power selection jumper 22 3 3 4 3 Backlight enable polarity selection jumper 22 3 3 4 4 Backlight brightness peak voltage level jumper 22 3 3 4 5 Backlight brightness control jumpers 23 3 3 4 6 EDID EEPROM address select jumper 23 3 3 4 7 Backlight control PWM signal jumper J801 23 3 4...

Page 5: ...ot X1001 J1001 31 3 16 LPC Interface GPIOs X1005 31 3 17 SMBUS I2C Interface X902 32 3 18 Miscellaneous Signals X1102 32 3 19 Beeper X901 32 3 20 Battery Gold Cap 32 3 21 SDIO Card Socket X1004 33 SDIO Card LEDs 33 3 22 Power X1101 33 12V LVDS Backlight 33 Reset Button 33 Sleep Button 33 Power Button 34 LID Button 34 Suspend Signal 34 S3 Cold S3 Hot Feature J1102 34 12V SATA and Fan Voltage 34 3 2...

Page 6: ...eboard 12 Figure 2 Positioning of connectors and jumpers Q7 MB EP6 baseboard top view 13 Figure 3 Positioning of connectors Q7 MB EP6 baseboard bottom view 14 Figure 4 Dimensions of Q7 MB EP6 Baseboard 15 Figure 5 Jumper row X80x X803 X804 and X805 21 Figure 6 Jumpers J801 23 ...

Page 7: ... 24 Table 15 Pinout mSATA connector X503 25 Table 16 USB ports assignment 26 Table 17 Jumper option USB Client J601 26 Table 18 Pinout Internal USB Connector X601 27 Table 19 Jumper Option PCIe Lane Selection 27 Table 20 Jumper mini PCIe Wireless Operation J501 28 Table 21 Pinout X701 29 Table 22 Pinout X702 29 Table 23 Pinout X703 29 Table 24 Jumper Serial Selection 30 Table 25 Pinout Audio Conne...

Page 8: ...nce Documents 1 QsevenTM Module Specification Revision 2 0 http www sget org standards qseven html 2 PCI Local Bus Specification Rev 2 1 PCI21 PDF Last update June 1st 1995 http www pcisig com 3 JILI Specification Jilim120 pdf Last update April 7th 2003 http www jumptec de product data jili index html 4 Digital Video Interface DVI dvi_10 pdf Rev 1 0 April 2nd 1999 http www ddwg org 5 Displayport i...

Page 9: ...ation http www pcisig com 1 3 Definitions and Abbreviations COM Computer On Module RTC Real Time Clock PCI Peripheral Component Interconnect SATA Serial Advanced Technology Attachment USB Universal Serial Bus LVDS Low Voltage Differential Signaling JILI JUMPtec Intelligent LVDS Interface LAN Local Area Network VGA Video Graphics Array LPC Low Pin Count POST Power on self test SMBus System Manageme...

Page 10: ...r BIOS flash SATA and an USB controller Interface controllers or connectors e g RJ45 are implemented on the baseboard on to which the QsevenTM module is mounted In addition to the power supply signals for PCIe SATA USB LPC etc are routed over the QsevenTM edge connector Thanks to the standardized mechanics and interfaces the system can be scaled to the performance requirements of the application D...

Page 11: ...1000 Base T LAN interfaces Support for Wake on LAN WOL Native RS232 with handshake signals RS485 interface multiplexed with RS232 2nd RS232 port with only TX and RX no handshake signals miniPCIe card slot for full mini and half mini size PCIe cards mPCIe lanes switchable between interfaces SD card socket SPI connector CAN connector LPC GPIO connector Miscellaneous signals connector Beeper connecto...

Page 12: ...r Battery Gold Cap 10 Pin Header 12V Regulator 5V 3V3 Regulator UART0 UART_MFG UART2 SMBus I2C SPI SDIO SATA0 SATA1 CAN LPC GPIO Buzzer Fan Reset Sleep Power LID SUS Buttons VccRTC Power SATA FAN Backlight Display 5V_SUS 3V3_SUS 5V 3V3 1V5 USB1 USB3 USB5 USB0 USB6 7 USB2 USB4 PCIe0 PICe1 LAN Q7 LVDS eDP Backlight control DP Audio Signals 1V5 Regulator Jumper MicroAB Host Client USB 2 0 Type A USB ...

Page 13: ...ew X705 X603 X301 X602 5V X702 LED1101 X504 X505 J703 J601 X502 X503 X1001 X905 X1005 X401 J1001 X1101 LED501 J501 X902 X604 X507 X506 X703 X1102 J1302 LED502 LED503 LED1102 X904 X801 J701 J702 J801 X601 J901 X805 X804 X803 J1301 J1102 X704 X901 J1305 LED504 LED1002 LED505 LED1003 2 4 1 3 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 30 1 1 1 1 1 1 2 29 1 1 ...

Page 14: ...MSC Q7 MB EP6 User Manual 14 35 Figure 3Positioning of connectors Q7 MB EP6 baseboard bottom view X202 X1004 Battery Gold Cap X802 X907 Q7 module 1 2 1 1 9 1 8 ...

Page 15: ... 02 mm x 102 22 mm Board Thickness 1 8 mm 10 Drill hole positioning tolerance 0 1mm in X and Y Drill hole diameter tolerance 0 1 mm Max height of component on Top side 19 3mm Max height of component on Bottom side 5 4mm Figure 4Dimensions of Q7 MB EP6 Baseboard ...

Page 16: ...KE 18 SUS_S3 19 SUS_STAT 20 PWRBTN 21 SLP_BTN 22 LID_BTN 23 GND 24 GND KEY KEY 25 GND 26 PWGIN 27 BATLOW 28 RSTBTN 29 SATA0_TX 30 SATA1_TX 31 SATA0_TX 32 SATA1_TX 33 SATA_ACT 34 GND 35 SATA0_RX 36 SATA1_RX 37 SATA0_RX 38 SATA1_RX 39 GND 40 GND 41 BIOS_DISABLE BOOT_ALT 42 SDIO_CLK 43 SDIO_CD 44 SDIO_LED 45 SDIO_CMD 46 SDIO_WP 47 SDIO_PWR 48 SDIO_DAT1 49 SDIO_DAT0 50 SDIO_DAT3 51 SDIO_DAT2 52 SDIO_D...

Page 17: ..._TX3 LVDS_A3 116 eDP1_TX3 LVDS_B3 117 GND 118 GND 119 eDP0_AUX LVDS_A_CLK 120 eDP1_AUX LVDS_B_CLK 121 eDP0_AUX LVDS_A_CLK 122 eDP1_AUX LVDS_B_CLK 123 GP_PWM_OUT0 LVDS_BLT_CTRL 124 GP_1 Wire_Bus 125 GP2_I2C_DAT LVDS_DID_DAT 126 eDP0_HPD LVDS_BLC_DAT 127 GP2_I2C_CLK LVDS_DID_CLK 128 eDP1_HPD LVDS_BLC_CLK 129 CAN0_TX 130 CAN0_RX 131 DP_LANE3 TMDS_CLK 132 RSVD Differential Pair 133 DP_LANE3 TMDS_CLK 1...

Page 18: ...ART_MUX_RX 209 UART_MUX_TX 210 MFG_NC3 211 VCC 212 VCC 213 VCC 214 VCC 215 VCC 216 VCC 217 VCC 218 VCC 219 VCC 220 VCC 221 VCC 222 VCC 223 VCC 224 VCC 225 VCC 226 VCC 227 VCC 228 VCC 229 VCC 230 VCC not supported on MSC Q7 MB EP6 Table 2 Pinout QsevenTM connector X202 3 2 Video interface via DisplayPort connector specification X301 References X301 Type Molex 1050200001 Mating DP Monitor A high res...

Page 19: ...technologies eu for assistance in finding appropriate display backlight inverter and cable sets for your application requirements References X801 Type Hirose MDF76GW 30S 1H 55 Mating Cable PlugMDF76 30P 1C Pin Signal name Function 1 LVDS_A0 eDP0_TX0 LVDS Negative data signal Display Port primary channel data signal pair 0 2 LVDS_A0 eDP0_TX0 LVDS Positive data signal Display Port primary channel da...

Page 20: ...ative data signal Display Port secondary channel data signal pair 3 23 LVDS_B3 eDP1_TX3 LVDS Positive data signal Display Port secondary channel data signal pair 3 24 GND Ground 25 PANEL_I2C_DAT eDP0_HPD I2C Signal Primary Channel Hot Plug Detect 26 LVDS_PPEN Panel Power Enable 27 PANEL_I2C_CLK eDP1_HPD I2C Signal Secondary Channel Hot Plug Detect 28 VCC Power Supply 3 3V or 5V or 12V 29 VCC Power...

Page 21: ...t connector X802 LVDS EEPROM To store configuration data for the display a serial EEPROM is connected to the LVDS I2C bus signals LVDS_I2C_CK and LVDS_I2C_DAT To avoid conflicts with a configuration EEPROM on the connected display this EEPROM can be mapped to an unused address space The address can be configured with a jumper on X803 See section 3 3 4 for Jumper settings LVDS panel jumper settings...

Page 22: ...arity of the backlight enable signal BLON can be selected using jumpers on X80x X80x Pins Function 16 18 BLEN low active Note This jumper is placed on one side only 18 20 default BLEN high active Note This jumper is placed on one side only Table 8 Jumper settings backlight enable polarity X80x 3 3 4 4 Backlight brightness peak voltage level jumper This jumper selects the voltage range for the sign...

Page 23: ...3 Analog level based on non inverted PWM signal Note These jumpers are placed on one side only 24 26 23 25 PWM signal inverted Note These jumpers are placed on one side only Table 10 Jumper settings backlight brightness control X80x 3 3 4 6 EDID EEPROM address select jumper An EDID EEPROM is available on the baseboard in order to configure a customized setting for an LCD panel which is not availab...

Page 24: ...mit signal 7 GND Ground Table 13 Pinout SATA connector X506 References X507 Type TE 770997 1 Mating Standard rectangular power connector Pin Signal name Function 1 VCC12V 12V Power 2 COM_2 Ground 3 COM_3 Ground 4 VCC5V 5V Power Table 14 Pinout SATA power connector X507 3 5 mSATA Interface specification X503 The EP6 board offers further storage capacity by providing the SATA channel 1 on to a dedic...

Page 25: ...4 X505 The MSC Q7 MB EP6 Board offers two Gigabit Ethernet ports They can be connected to a local area network via a 10 100 1000 Base T interface The 1000Base T transformer is assembled on the connector on the baseboard Connector X504 is connected to the QsevenTM CPU module whereas a PCIe to Ethernet device Intel i210 is used on the base board to generate the 2nd Ethernet port on the X505 connecto...

Page 26: ... USB 6 USB 6 QsevenTM connector USB6 X704 USB 3 0 Connector USB_SSRX0 USB_SSRX0 USB 7 USB 7 QsevenTM connector USB7 X704 USB 3 0 Connector USB_SSTX0 USB_SSTX0 Table 16 USB ports assignment Micro AB USB Connector X604 References X604 Type Kycon KMMX ABSMT5SG 30 Mating Micro AB USB cable Pinout according to USB specification 2 0 8 The USB port can be configured as a client or host using jumper J601 ...

Page 27: ...uses The USB power switches have the following features The output current is limited to 500mA per USB2 0 port and 1 5A per USB3 0 port A signal to detect overcurrent is generated for each pair of ports o USB0 and USB1 have one common signal to detect overcurrent o USB2 and USB3 have one common signal to detect overcurrent o USB4 and USB5 have one common signal to detect overcurrent o USB6 and USB...

Page 28: ...ed 2 3 wireless operation disabled Table 20 Jumper mini PCIe Wireless Operation J501 PCIe Mini Card Status LEDs The Q7 MB EP6 base board has 3 LEDs to display the state of an add in mini PCIe card with wireless capabilities LED501 WWAN LED LED502 WLAN LED LED503 WPAN LED 3 10 RS 232 The EP6 board offers 2x RS232 ports on the connectors X705 and X702 UART0 DB9 Connector X705 The UART0 signals are r...

Page 29: ...ansmit Data 6 7 8 9 GND Ground 10 Ground shield GNDSHLD Table 22 Pinout X702 The TXD signal is sourced from MFG_NC1 Q7 pin209 The RXD signal is sourced from MFG_NC2 Q7 pin208 3 11RS485 X703 UART0 can be used for a RS485 connection depending on the selection of the jumper J703 For RS485 function the jumper J703 must be installed The signals from the UART can also be used for a RS232 connection Plea...

Page 30: ...emale crimp connector Reference FCI 65043 032 Pin Signal Pin Signal 1 Microphone In L 2 GND 3 Microphone In R 4 PRESENCE HD presence detect 5 Headphone OUT R 6 MIC_JD jack detect 7 GND 8 NC 9 Headphone OUT L 10 HP_JD jack detect Table 25 Pinout Audio Connector X401 3 14CAN Interface X905 The MSC Q7 MB EP6 board offers a CAN interface The signals CAN_TX and CAN_RX from the Q7 Module are directly ro...

Page 31: ...s use a high speed buffer for driving this signal so high speed signal routing considerations should be taken into consideration when connecting to the SPI interface Please refer to the module user manual for more details or contact Technical Support J1001 Function 1 2 BIOS_DISABLE BOOT_ALT Low 2 3 BIOS_DISABLE BOOT_ALT High removed default BIOS_DISABLE BOOT_ALT Table 28 Jumper J1001 Serial Select...

Page 32: ...ot populated References X1102 Type CAB 1001 161 006 RoHS Mating female crimp connector Reference FCI 65039 031 X902 Pin Signal 1 WDTRIG 2 WDOUT 3 BATLOW 4 SUS_STAT 5 THRM 6 THRMTRIP Table 31 Pinout MISC X1102 3 19Beeper X901 A 5V piezo buzzer can be wired to the X901 connector for acoustic warning signals The connector X901 is not populated by default The speaker signal from the QsevenTM module is...

Page 33: ...12V LVDS Backlight An on board voltage regulator is used to provide 12V for the backlight voltage The voltage regulator delivers 12V 1A max when 15V VCCIN 28V See also 3 22 8 12V SATA and Fan Voltage When the input is 12V this input voltage can be directly coupled to the 12V LVDS Backlight and LCD panel power A jumper J1301 is provided to enable this J1301 Function 1 2 Backlight voltage connected ...

Page 34: ...ded on J1101 in order to choose either for S3 cold or S3 hot for both baseboard and the Q7 module The jumper option can be set to ensure minimum power consumed by system in S3 state J1102 pins State Function in S3 state 1 3 default S3 COLD Board peripherals power off 3 5 S3 HOT Board peripherals power remain on 2 4 S3 COLD Module main power off only standby power is on 4 6 default S3 HOT Module po...

Page 35: ...pin out and jumper configuration possibilities References X907 Type Molex 53261 0471 Mating Molex 51021 0400 Pin Signal Function 1 FANPWM output PWM signal to control fan speed 2 FANTACHO input Signal to measure fan speed 3 FANPOWER Fan power 12V or 5V 4 GND Ground Table 38 Pinout Fan Connector X907 J901 pins Fan Power 1 2 default 12V from 12V regulator 15V Vin 28V 2 3 5V Table 39 Jumper J901 for ...

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