ACE-S7400 User Manual
Contents
1. m 114 Ghapter 5 Blasi eoi Eee tete eid qankona rn 115 E LL tie Gat 116 e I POETE mE 120 Chapter1 Introduction ACE S7400 is an All in One gaming control box based on AMD most advanced Fusion platform which integrates AMD Radeon HD 6310 graphic controller It is designed for slot machine and AWP machine which requires powerful 3D video performance Besides powerful integrated graphic controller 57400 integrates all gaming control features 1 1 Specifications Items Description CPU Thermal Module Fan with heat sink CPU Board ACE B7400 CPU AMD processors Single Core T52R 1 5GHz 18W Dual Core T48N 1 4GHz 18W Integrated AMD Radeon HD 6310 graphic controller Display 1 Single Link DVI with DVI D connector Display 2 Single Link DVI VGA with DVI I connector 2 x DDR3 So DIMM slots Maximum up to 8 Giga Bytes 1 x 1GB DDR3 SDRAM pre installed CF socket x 2 Optional 2 5 HDD bay Extension Not available Front Panel DVI D DVI I connector 2x RJ45 Giga LAN 2 USB 1 x 2 USB connector COM to COM 4 Male DB9 Power amp HDD LED 2x 16 pin micro fit connector for digital input 2x 20 pin micro fit connector for digital output 1x 14 pin micro fit connector for COM Video System Memory Storage N gt J N gt J N gt gt Rear Panel O gt mm om D 1x6 pin for audio E 1x8 pin micro fit con2. 47 4 1 DC Power input connection I EEUU Or CERNI EE 47 4 2 Digital eec LEE 47 4 Digital ties exes ataqa yaaa qo 48 4 4 Watchdog Timer RTT Tro 49 9 292 POS utis mte osos q 49 Z5 Sra ATASATA au LEE 51 51 Chapter 5 Driver And Utility 8 52 5 1 Driver CD Interface Introduction 52 5 2 Windows 32bit Driver Installation 64 5 3 Windows 7 32 6461 Driver Installation 66 Chapter 6 Software Installation and Programming Guide sss 71 SW MMOOUCHON H 71 5 2 Application Menace tta La M MAD E 71 eR ROSE Ea ER t RI merde d t ed 87 AB EH 96 O S Valles ite 98 Appendix Test Tool 101 Chapter 1 Introduction eT 101 SRAM op aaa AA a aa A aaa a Aaa asss 102 Chapters GEO uu u u umu uu aaa i qasichu asia sasa 105 Chapter
3. 2 1 4 Assemble top cover with key 2 2 Installation 2 2 1 Open the top cover the same as above steps 2 2 2 Push the CF card into CF socket Transcend CompagtFlash 288 Indim ial 2 2 3 Finish the CF installation Transcend CompactFlash 26B _ Industrial 2 3 1 Assemble SATA HDD at HDD braket with four screws 2 3 SATA HDD installation P TETTE 5811 20959 5 19 19509 0 058 2 15 1 1 amp Transcend 2 5 SATA 2 SSD TS64GSSD25S M 0 760557 812869 SIN 465402 1199 TH MUI 125 045 424 UH 1594 kD lllloo s gt ps 119 SN IIIIIIIII 5468 125 045 424 BW60S2 etos cable 2 3 2 Assemble to motherboard with four screws Then install SATA cable and power 15 x Chapter 1 Introduction ACE B7400 is an All in One gaming control box based on AMD most advanced Fusion platform which integrates AMD Radeon HD 6310 graphic controller It is designed for slot machine and AWP machine which requires powerful 3D video performance Besides powerful integrated graphic controller ACE B7400 integrates all gaming control features 1 1 Specifications Items Description CPU Thermal Module Fan with heat sink CPU Board ACE B7400 CPU AMD processors Single Core T52R 1 5GHz 18W Dual Core T48N 1 4GHz 18W 4 2 DDR3 So DIMM slots 5 Maximum up
4. timeout The time interval that counter has to wait to trigger interrupt if the input states remains unchanged The unit is 1ms This interrupt is related to counter timeout event target The counter will trigger an interrupt if it counts to target value This interrupt is related to counter overflow event Counter value will automatically return to O if it counts to target value 85 6 2 4 34 Get Counter Current Value Description Get the current count value of the selected counter The counter value remains unchanged after this action Syntax getCnt i32 cnt u16 value Argument gt cnt Counter index Range from CNT1 to value The memory address to put the current count value of the selected counter 6 2 4 35 Setup Coin Hopper Action Description Specify the Counter4 parameters and set Hopper SSR to closed circuit If the specify counter target is reached Hopper SSR will immediately change to open circuit The Hopper Sensor channel Counter4 will set to counter mode automatically A counter overflow event will also log in the event queue if all actions are finished Syntax setCoinHopper u8 type u8 timeout u16 target Argument type O indicates counter increases while rising edge is detected 1 indicates counter increases while falling edge is detected timeout The time interval that counter has to wait to trigger interrupt if the input states remains unchanged The unit is 1ms Th
5. onn po2spo24 Audio Power input CONE oun ew posbotajpots pos en oup eum Se s 5 sun pn Pt 24 en av vec 46 485 COME COMS COM6 CONS ouo nos nos 004 not noo Jon own ire js js euma Pme rie 12v azv V Daa 779 _ I I 1 cus AN LAN2 LAN1 com CONA e DVI VGA moe Je el e C J e Je e Je use 1 4 3 System Configuration Item Description Quantity 1 COVER 1 2 1 3 HDD 1 4 M3 0 5pitch 8L SPRING SCREW 4 5 HEXAGON SCREW 4 6 7400 1 7 MOUNTING BRACKET 2 8 KEY LOCK 1 9 FAN 2 10 WIRE MOUNT 3 Chapter 2 Procedures of Assembly Disassembly 2 1 SO DIMM Installation The following instructions will guide you to install SO DIMM step by step 2 1 1 Unlock key of chassis top cover 2 1 2 Open top cover 11 2 1 3 Install the SO DIMM memory module into the SO DIMM socket m Align the memory module s cutout with the SO DIMM slot notch EN Rx wor T T 1 Few B Slide the memory module into the SO DIMM slot
6. Offset SRAM offset to write buffer The start address of data buffer to write to SRAM Size The memory block size in byte to write 6 2 4 General Purpose Input Output 6 2 4 1 Get Channel Status Description This function is used to get the status of the selected channel 76 Syntax getChStatus i32 ch u32 status Argument gt ch Channel number gt status The memory address to put channel status For input channel 0 indicates open circuit 1 indicates closed circuit For output channel 0 indicates switch off 1 indicates switch on 6 2 4 2 Set Input Channel Debounce Time Description Set the debounce time for the selected channel in ms Syntax setDiDebounce i32 ch u8 time Argument gt ch Input channel number time The de bounce time 0 indicates the debounce feature is disabled others indicate the debounce time in ms e g 1 means debounce time is 1 ms 6 2 4 8 Get Input Channel Debounce Time Description Get the debounce time for the selected channel in ms Syntax getDiDebounce i32 ch u8 time Argument gt ch Input channel number gt time The memory address to put the debounce time value 0 indicates the debounce function is disabled others indicate the debounce time in ms 6 2 4 4 Set Input Channel Interrupt Enable Status Description Set the interrupt trigger type of the selected input channel Syntax setDilntEnable 132 ch IntType type Argument gt
7. icon _ ACE B7400 Driver Utility Application Document v Chipset Audio v LAN TPM All All Select Clear 4 Install Browse Close Disc 68 5 3 3 Click the Install icon to install the drivers ECROSSER ACE B7400 Driver Utility Application Document Chipset v Audio v LAN TPM Installing Chipset driver now Disc Select Clear Browse All All 4 Install Q Close 69 5 3 4 Finish the driver installation Please click Yes to restart the system ECROSSER ACE B7400 Driver Utility Application Document Chipset Audio LAN TPM Installation Completed Do you want to restart system right now Select Clear 4 Install Disc e Browse Q Close 70 Chapter 6 Software Installation and Programming Guide 6 1 Introduction ACE B7400 is an All in One gaming control box based on AMD 780 platform It is designed for slot machine and AWP machine which requires powerful 3D video performance Besides powerful integrated graphic controller ACE B7400 integrates all gaming control features In order to ease the customer s operation on ACE B7400 Acrosser provides device driver application interface API and source code of demo application The provided software is available on both Windows and Linux The API can be classified into two subclasses Acrosser Gaming Core V2 AGC2 and Acrosser Gaming Agent
8. v Chipset Audio v LAN TPM ae pn 4 Install e Close us 64 5 2 2 Click the Install icon to install the drivers MEsngssen ACE B7400 Driver Utility Application Document Chipset v Audio v LAN TPM Installing Chipset driver now Disc Select Clear Browse All All 4 Install P Close 65 5 2 3 Finish the driver installation Please click Yes to restart the system ACE B7400 Driver Utility Application Document Chipset Audio LAN TPM Installation Completed Do you want to restart system right now Select Clear A Browse nstall A Close All 4 Disc lt 5 3 Windows 7 32 6461 Driver Installation Please be noted Since windows 7 64 bit edition needs certified digital signing to load hardware drivers in order to run our product correctly the installation program will automatically enable test signing feature if it runs under windows 7 64 bit environment 66 5 3 1 Please put the driver disk to optical driver Then click the setup exe to run the install program Bec le em desktop E DVD Drive G Acrosser Driver Disc Always do this for software and games Install or ru Adobe Reader 9 General options k Open folder to view files View more AutoPlay options in Control Panel 40 7 1 2011 a 07 DJ 67 5 3 2 The program will appear on the screen Please click the Select All
9. 0 indicates switch off 1 indicates switch on 6 2 4 26 Set Hopper SSR Status Description Set the status of Hopper SSR channel Syntax setHopperSsr u32 status Argument Status O indicates switch off 1 indicates switch on 6 2 4 27 Set Pulse Generator Enable Status Description Set the enable status of the selected pulse generator 83 Syntax enablePg i32 pg u32 enable Argument gt Pulse generator number Range from PG1 to gt enable The enable status of the selected pulse generator 0 indicates the output channel works as a general purpose output 1 indicates the output channel works as a pulse generator 6 2 4 28 Set Pulse Generator Parameters Description Set all parameters of the selected pulse generator and immediately start it Syntax setPg i32 pg u8 base u8 duration u16 cycle Argument gt pg Pulse generator number Range from PG1 to gt gt The pulse generator timebase of the selected output channel 0 indicates the base is 1 ms 1 indicates the base is 100 ms duration The time of the related pulse generator remains high in one cycle The pulse generator works as 5096 duty cycle gt cycle The number of the related pulse generator running cycle 6 2 4 29 Get Pulse Generator Current Remaining Cycle Description Get the remaining cycle of the selected pulse generator Syntax getPg i32 pg u16 cycle Argument gt pg Pulse generator number R
10. 6 7 1 Test Purpose To set intrusion log mask 6 7 2 Test Example The default password is 00000000 Use this function to set intrusion log mask to OxFF Use 6 8 to get intrusion log mask setting 6 7 3 Test Criteria If getting value is equal to OxFF the test is passed otherwise it is failed 6 8 Get Intrusion log mask 6 8 1 Test Purpose To get intrusion log mask 6 8 2 Test Example Refer to 6 7 2 6 8 3 Test Criteria Refer to 6 7 3 6 9 Get battery low log 6 9 1 Test Purpose To get battery low log 6 9 2 Test Example The default password is 00000000 6 9 3 Test Criteria If a battery log is shown the test is passed otherwise it is failed 6 10 Clear battery low log 6 10 1 Test Purpose To clear battery low log 6 10 2 Test Example 117 default password is 00000000 6 10 3 Test Criteria If Return 00000000 is shown the test is passed otherwise it is failed 6 11 Get iButton ROM information 6 11 1 Test Purpose To get iButton ROM information 6 11 2 Test Example Use this function to get iButton1 on board information 6 11 3 Test Criteria If a list of iButton information is shown the test is passed otherwise it is failed 6 12 Set AGA password 6 12 1 Test Purpose To set AGA password 6 12 2 Test Example Input old password as default password 00000000 and set new password as 12345678 Use new password to run 6 3 6 12 3 Test Criteria If RTC is changed the test is passed oth
11. Description Set one byte data to iButton Syntax setiBtn i32 id u8 data Argument gt 1 Battery index gt data The 1 byte data to set 6 3 5 EEPROM 6 3 5 1 Get Data From EEPROM Description Get data from EEPROM Syntax getEeprom u16 offset u8 data u16 size 91 Argument gt offset The offset of EEPROM gt data The memory address to put the data from EEPROM gt Size The retrieved data size from EEPROM 6 3 5 2 Set Data to EEPROM Description Set data to EEPROM Syntax setEeprom u16 offset u8 data u16 size Argument Offset The offset of EEPROM data The memory address to put the data writing to EEPROM Size The writing data size to EEPROM 6 3 6 ProtectU 2 0 6 3 6 1 Set AES Key Description Set AES key which encrypt decrypt secured information while communicating with AGA Syntax setAesKey u8 key Argument gt key The memory address to put 16 bytes AES key 6 3 6 2 Set ProtectU 2 0 Hash Value Description Set ProtectU 2 0 verified hash value Syntax setHash u8 hash Argument gt hash The memory address to put 64 bytes hash value 6 3 6 3 Set ProtectU 2 0 Hash Value By Assigned File Description Set ProtectU 2 0 verified hash value by assigned file content The hash value is calculated by the assigned file on the fly Due to the different file handle mechanism under different operation system will require different argument Please see the example bellow
12. RTC CN USB1 PAAA JP18 JST 2 0mm USB Connector Clear System CMOS Jumper Q USB7 CN USB2 JP6 JP13 JP17 JST 2 0 USB CN3 Output Signal Selection RS 485 Terminal Resistor USB8 Jumper Selection Jumper for UART 5 Qr Qro T System FAN Connector 2 System FAN Connector 1 nela APUFAN1 IButtom2 JP1 APU FAN Connector cud 2 0mm External i Button cctalk Supply Power Selection onnector Jumper SPAREIO1 JP2 JP3 CASESW2 JST 2 0 Gaming Spare IO SRAMA B Clear Jumper 5 20mm Chassis Open Close Connector 16 bits GPIO Detection Connector SW1 JP4 JP5 DIP switch Input for AGC 22 Connectors and Jumpers Setting 2 1 1 FPIO1 System Power button amp Reset Jumper 2 1 2 USB1 JST 2 0mm USB Connector USB7 JUMPER FUNCTION External Power Button PIN SIGNAL 1 2 1 Connection gt 1 VCC 5V Short to Enable Auto 2 Data 5 6 3 4 Power on Function 1 3 Data System Reset Button 4 GND 5 6 Connector 5 N C 2 1 3 CN_USB1 2 1 4 SYSFAN2 JST 2 0mm USB Connector USB7 System FAN Connector 2 PIN SIGNAL 3 1 VCC 5V PIN SIGNAL 2 Data 1 GND 1 3 Data 2 12V 4 GND 3 Feedback 5 N C 2 1 5 APUFAN 1 2 1 6 SPARE
13. This item displays the CPU Speed System Memory mi N A This item displays the memory speed Speed 31 L2 Cache N A This item displays the L2 ache memory size Total Memory N A This item displays the memory size that used Memory Channel slot N A This item displays the memory size that used On slot 0 Memory Channel slot E This displays the memory size that used slot 1 1 32 3 2 Advanced Chipset Setup Quick Boot Enter Enabled Disabled Enabled Disabled Allows the system to skip certain tests while booting This Quick Boot will decrease the time needed to boot the system Full Screen Logo Displays the full screen logo upon BIOS booting Show 33 3 3 AMD Setup SouthBridge Setting No setting Azalia Option ATA De 34 OnChip Channel Integrated Graphics Enabled Enables onboard controller if Enabled audio device is detected Azalia Option Disabled Disabled Turn off onboard controller to allow external controller OnChip SATA Channel Enabled Enabled Enables onboard SATA 35 Disabled controller Disabled Turn off onboard SATA controller AHCI OnChip SATA Type Legacy IDE 103494 Auto Onboard Fram Buffer Auto Size by the Main memory size Integrated Graphics Force Force set fixed Onboard VGA Fram Buffer Size Auto 32M 64M 128M Select Onboard VGA F
14. V2 AGA2 The details are described in Chapter 2 All the provided software can be found in the bundled disc 6 2 Application Interface This chapter describes the details of the provided API function The return value of the API function is listed on Chapter 3 6 2 1 AGC2 6 2 2 General Usage 6 2 21 Register AGC2 Resource Description This function is used to register the AGC2 related resource AGC2 has to be registered by this function before other functions are called Syntax u32 registerAgc void Argument None 6 2 2 2 Release AGC2 Resource Description This function is used to release the resource of AGC2 Syntax 71 releaseAgc void Argument None 6 2 2 3 Get Event Buffer Description Get an event from device event queue Syntax getEventBuf Event event Argument event The memory address to put the Event structure from queue Event structure gt 8 type the types of event If type is equal to 1 the event is a general purposed input event If type is equal to 2 the event is a timer timeout event If type is equal to 3 the event is a pulse generator finished event If type is equal to 4 the event is a counter overflow event If type is equal to 5 the event is a counter timeout event gt u8channel the channel index or timer index which occurred the event For a general purposed input event channel stores the channel index For a timer timeout event chann
15. ch Input channel number gt 77 e Iftypeis equal to NONE 0 no interrupts will happen while input status changed e Iftypeis equal to RISING 1 interrupts happen only when a rising edge is detected at input channel e Iftypeis equal to FALLING 2 interrupts happen only when a falling edge is detected at input channel e If type is equal to BOTH 3 interrupts happen both on rising and falling edge 6 2 4 5 Get Input Channel Interrupt Enable Status Description Get the interrupt trigger type of the selected input channel Syntax getDilntEnable i32 ch IntType type Argument gt ch Input channel number type The memory address to put the interrupt trigger type of the selected input channel 6 2 4 6 Set Output Channel Status Description Set the status of the selected output channel Syntax setDoStatus i32 ch u32 status Argument gt ch Output channel number Status The channel status 0 indicates switch off 1 indicates switch on 6 2 4 7 Set Spare IO Direction Description Set the direction of all spare channel Syntax setGpioDir u32 dir Argument gt dir 32 bit direction indicator Every bit is related to one spare I O channel e g bit 0 indicated spare I O channel 0 and so on Set the related bit to 1 if programs output set to 0 if programs input 6 2 4 8 Get Spare IO Direction Description 78 Get the direction of all spare I O channel Syntax getGpi
16. gt on this TM Exit BIOS Setup and Save Changes BIOS Setting Changes item for confirmation Exit Pressing Enter on this Discarding Exit BIOS Setup and Without Save Changes BIOS Setting item for confirmation Changes 45 When you press lt Enter gt on this item you get a Load confirmation dialog box with Press Y to load the default values that are factory set for Optimized message like this optimal performance system operations Defaults Pressing lt Enter gt on this Discard item for confirmation N A Changes Pressing lt Enter gt on this Save item for confirmation Save Changes BIOS Setting but without exit BIOS Setup Changes 46 Chapter 4 Function Description 4 1 DC Power input connection AR B7400 needs 12V 24V to power the board 4 2 Digital Inputs There are 4 clamped diode protection digital inputs on GPIO_COM1 connector You can read the status of any input through the software API These digital inputs are general purpose input You can define their purpose for any digital input function The detailed information please refers to Software Programming Guide for how to use the API Following diagrams state how to connect the digital inputs to devices on the embedded system Suggestion Application Circuit PCB Internal Circuit SIO 47 Suggestion Application Circuit PCB Internal Circuit Logic External Circ ult es Circuit High 25 12V Lo
17. to 8 Giga Bytes 6 1x1GB DDR3 SDRAM pre installed 3 4 System Memory Storage CF socket x 2 Optional 2 5 HDD bay Extension Not available Front Panel G DVI D H DVI I connector 2x RJ45 Giga LAN 2 USB J 1 2 USB connector COM to COM 4 Male DB9 L Power amp HDDLED Rear Panel F 2x16 pin micro fit connector for digital input G 2x20 pin micro fit connector for digital output H 1x14 pin micro fit connector for COM 1 6 for audio J 1x 8 pin micro fit connector for power input Internal I O 4 2x USB 2 0 5 On board intrusion switch 6 1x intrusion input from on board 2 pin JST connector System fan 2x temperature controllable system fan Operation 0 to 60 Degrees Celsius temperature Expansion Module Not Available Power requirement Power supply from external 1 12V amp 24V from 8 pin Micro fit connector 1 2 Package Contents Check if the following items are included in the package e Quick Manual e AR B7400 board e 1 x Software Utility CD 1 3 Block Diagram Digtal Output Tots 32 pin output x 13 BLOCK DIAGRAM 2 10 pin micro fit 3 0 903 7 Bi enade x 1 Hopper SSR x 1 rem 1 490 100 Genera output 1 5002 10 ODI PORTO 16021064 l6so16668 G Digital input External x 32 internal x 101 Bmore 16 19mmX19mm Mayen 5 m 7 DVH CONN switches x i
18. 88 i The HIGH to LOW log of door switch 1 The LOW to HIGH log of door switch 1 iii The HIGH to LOW log of door switch 2 iv The LOW to HIGH log of door switch 2 v The HIGH to LOW log of door switch 3 The LOW to HIGH log of door switch 3 The HIGH to LOW log of door switch 4 viii The LOW to HIGH log of door switch 4 ix The HIGH to LOW log of door switch 5 x The LOW to HIGH log of door switch 5 xi The HIGH to LOW log of door switch 6 xii The LOW to HIGH log of door switch 6 xiii The HIGH to LOW log of door switch 7 xiv The LOW to HIGH log of door switch 7 xv The HIGH to LOW log of system reboot xvi The LOW to HIGH log of system reboot gt The memory address to put the 8 bytes password Intrlog structure gt Struct tm timestamp The tm structure of the intrusion event log gt Uu8type The intrusion event type HI2LO indicates the status changed from high to low LO2HI indicates the status changed from low to high 6 3 3 2 Clear Intrusion Event Log Description Clear all intrusion event logs Syntax clrintrlog u8 pwd Argument 89 gt memory address to put the 8 bytes password 6 3 3 3 Get Intrusion Event Enable Status Description Get all intrusion event enable status Syntax getlntrlogEnable u8 enable Argument enable The memory address to put the intrusion event enable value 0 indicates intrusion event log feature is disabled 1 indicates in
19. ACE S7400 User Manual Copyright All Rights Reserved Manual s first edition For the purpose of improving reliability design and function the information in this document is subject to change without prior notice and does not represent a commitment on the part of the manufacturer In no event will the manufacturer be liable for direct indirect special incidental or consequential damages arising out of the use inability to use the product or documentation even if advised of the possibility of such damages This document contains proprietary information protected by copyright All rights are reserved No part of this Manual may be reproduced by any mechanical electronic or other means in any form without prior written permission of the manufacturer Trademarks ACE B7400 ACE S7400 are registered trademarks of Acrosser IBM PC is a registered trademark of the International Business Machines Corporation Pentium is a registered trademark of Intel Technologies Inc Award is a registered trademark of Award Software International Inc other product names mentioned herein are used for identification purposes only and may be trademarks and or registered trademarks of their respective companies Table of Contents introduction dre 5 51 SDOCITCATIOIS o teh ora obs ata UMSO 5 PACKING LIS D 6 IAS g cud Me c EE 6 Dissection odes bua d
20. Argument gt but Button number ALL indicates getting all buttons To specify a dedicated button set value range from BUT1 to BUT16 gt status The memory address to put the channel status 0 indicates output low 1 indicates output high If but equals to ALL bitO the lowest significant bit of value means the status of bit means the status of BUT2 and so 6 2 4 13 Get Key Status Description Get the status of the selected key Syntax getKey i32 key u32 status Argument key Key number ALL indicates getting all keys To specify a dedicated key set value range from KEY1 to KEY5 gt status The memory address to put the channel status 0 indicates output low 1 indicates output high If key equals to ALL bitO the lowest significant bit of value means the status of KEY1 bit means the status of KEY2 and so 6 2 4 14 Get DIP Switch Status Description Get the status of the selected DIP switch Syntax getDipSw i32 dip u32 status Argument dip DIP switch number ALL indicates getting all DIP switch To specify a dedicated dip set value range from to 8 gt status The memory address to put the channel status 0 indicates output low 1 indicates output high If dip equals to ALL bitO the lowest significant bit of value means the status of DIP1 bit means the status of DIP2 and so on 80 6 2 4 15 Get Lamp Status Description Get the status of the selected lamp
21. E VALUE fd printf Failed to open file n return checkTrustByFile fd Linux u8 buffer 256 FILE fp 95 printf Please input file name to calculate 512 bits hash value scanf s buffer fp fopen char buffer r if fp printf Failed to open fileAn return checkTrustByFile fp 6 4 Flash 6 4 4 Erase Flash Description Erase the entire flash All byte value will change to OxFF after this action Syntax eraseFlash void Argument None 6 4 2 Write Flash Description Write data to flash You can only write at most 256 bytes at one time using this function You have to erase flash before you can successfully write any data to flash Syntax setFlash u32 offset u8 data u32 size Argument Offset The offset of flash data The memory address to put the data writing to flash Size The writing data size to flash Return failed if more than 256 6 4 3 Read Flash Description Read data from flash Syntax getFlash u32 offset u8 data u32 size 96 Argument offset The offset of flash data The memory address to put the data from flash size The retrieved data size from flash 97 6 5 Return Value This chapter describes the return value of the API functions The return value is formatted as the following table If the function executes successfully the return value is O 31 24 23 16 15 87 API Code AGA Er
22. IO APU FAN Connector JST 2 0mm Gaming Spare IO Connector PIN SIGNAL PIN SIGNAL 1 Bito 2 Bit8 3 Bit1 4 Bit9 5 Bit2 6 Bit10 PIN SIGNAL 7 Bit3 8 11 1 GND 9 Bit4 10 Bit12 2 12V 11 Bit5 12 Bit13 3 Feedback 13 Bit6 14 Bit14 15 Bit7 16 Bit15 17 GND 18 3 3V 19 GND 20 3 3V 23 2 1 7 SW1 8 bits DIP Switch Input for 2 1 8 SATA PWR1 SATA PWR2 Two JST 2 5mm SATA Power Connectors PIN SIGNAL ON 3 3V OFF GND PIN SIGNAL 1 12V 2 GND 3 3 3V 4 5V 2 1 9 CN19 Clear System CMOS Jumper 2 1 10 JP6 JP13 CN3 Output Signal TTL RS232 RS485 cctalk Selection Jumper 1 2 3 JUMPER FUNCTION 1 2 default Normal 2 3 Clear CMOS Please See Appendix A 2 1 12 IBUTTON2 JST 2 0mm External i Button Connector 2 1 13 JP2 JP3 SRAM A B Clear Jumper 2 1 PIN SIGNAL I Button Signal GND JUMPER FUNCTION 1 2 default Normal 2 3 Clear SRAM 2 1 14 JP4 JP5 Bill enable Coin enable Preset Jumper 2 1 15 BAT A1 BAT B1 Lithium Battery Connector for SRAM AGA and secured RTC JUMPER FUNCTION 1 2 default Preset is High 2 3 Preset is Low 1 2 High means Bill enable Coin enable 3 Low means Bill enable Coin enable open drain output is shor
23. MA are connected 4 gt through a male D Sub 9 pin connector for serial communication The 2 is connected through a cable Users need to plug into RS 232 or RS 422 485 connector For RS 422 485 please refer to SW2 SW4 and SW5 setting The following diagram is their pin definition and signal 54321 9876 49 Pin number RS 232 male DCD TXD RXD DSR GND DTR CTS RTS RI CN RS232 1 For RS 232 Function Pin SIGNAL 1 DSR 2 DCD 3 RTS 4 SIN 5 CTS 6 SOUT 7 RI 8 DTR 9 NC 10 GND CN RS422 485 1 For RS 422 RS 485 Pin SIGNAL 1 NC 2 485 422 TX 3 NC 4 485 422 TX 5 422 RX2 6 NC 7 422_ 2 8 NC 9 NC 10 GND 50 4 6 Serial There are 2 SATA 2 5 ports the AR B7400 There are also two SATA power connectors for the SATA hard disks The SATA power cable is an optional accessory If you need a SATA power connector please contact your Acrosser sales representative for the quotation 4 7 USB There are 6 USB 2 0 interfaces on the AR B7400 Four USB connectors are located on the edge of the board The other two USB ports are supported by two 5 pin internal connector You need a special cable for using these two USB ports and they are optional accessories 51 Chapter 5 Driver And Utility Installation 5 1 Driver CD Interface Intro
24. O5 Use 3 24 to set channel 47 as on 3 4 3 Test Criteria Verify if button O is on If so the test is passed otherwise it is failed 3 5 Get all buttons status 3 5 1 Test Purpose To get all buttons status 3 5 2 Test Example 105 Refer to 3 4 3 5 3 Test Criteria Refer to 3 4 3 6 Get key status 3 6 1 Test Purpose To get key status 3 6 2 Test Example Connect DI 23 with DO25 Use 3 24 to set channel 67 as on 3 6 3 Test Criteria Verify if key O is on If so the test is passed otherwise it is failed 3 7 Get all keys status 3 7 1 Test Purpose To get all keys status 3 7 2 Test Example Refer to 3 6 2 3 7 3 Test Criteria Refer to 3 6 3 3 8 Get DIP switch status 3 8 4 Test Purpose To get DIP switch status 3 8 2 Test Example Move on board DIP switch 1 to on 3 8 3 Test Criteria Verify if DIP switch 1 is on 3 9 Get all DIP switches status 3 9 1 Test Purpose To get all DIP switches status 3 9 2 Test Example Refer to 3 8 2 3 9 3 Test Criteria Refer to 3 8 3 3 10 Get input channel debounce time 3 10 1 Test Purpose To get input channel debounce time 3 10 2 Test Example Use 3 11 to set channel 0 debounce time as 10 And then use this function to verify if channel 0 debounce time is 10 3 10 3 Test Criteria 106 If channel 0 debounce time is equal to 10 it is passed otherwise it is failed 3 11 Set input channel debounce time 3 11 1 Test Purpose To set input channel debounce time 3 11 2 Test Example Refer to 3 10 2 3 11 3 Tes
25. Syntax getLamp i32 lamp u32 status Argument lamp Lamp number ALL indicates getting all lamps To specify a dedicated lamp set value range from LAMP1 to LAMP16 gt status The memory address to put the channel status 0 indicates output low 1 indicates output high If lamp equals to ALL bitO the lowest significant bit of value means the status of LAMP1 means the status of LAMP2 and so on 6 2 4 16 Set Lamp Status Description Set the status of the selected lamp Syntax amp i32 lamp u32 status Argument lamp Lamp number ALL indicates getting all lamps To specify a dedicated lamp set value range from LAMP1 to LAMP16 gt status The channel status 0 indicates output low 1 indicates output high If lamp equals to ALL the lowest significant bit of value means the status of LAMP1 bit means the status of LAMP2 and so on 6 2 4 17 Get Coin In A Input Status Description Get the status of Syntax getCoinInA u32 status Argument gt status The memory address to put the channel status 0 indicates open circuit 1 indicates closed circuit 6 2 4 18 Get Coin In B Input Status Description Get the status of CoinIn B Syntax 81 getCoinInB u32 status Argument gt status The memory address to put the channel status 0 indicates open circuit 1 indicates closed circuit 6 2 4 19 Get Bill In Input Status Description Get the status of Billln Syntax ge
26. To set counter parameters 111 3 35 2 Test Example Connect DI28 with DO16 Set counter 1 parameters as trigger type to 0 timeout value to 0 counter target to 100 Use 3 39 to generate 100 pulses with 1ms high duty duration 3 35 3 Test Criteria If Get counter reach target event CNT1 value 0 is shown the test is passed otherwise it is failed 3 36 Get counter value 3 36 1 Test Purpose To get counter value 3 36 2 Test Example Connect DI28 with DO16 Set counter 1 parameters as trigger type to 0 timeout value to 0 counter target to 100 Use 3 39 to generate 99 pulses with 1ms high duty duration from PG1 Use this function to get counter value 3 36 3 Test Criteria If counter value is equal to 99 the test is passed otherwise it is failed 3 37 Set Coin Hopper Output 3 37 1 Test Purpose To set coin hopper output Specify the counter4 parameters and set hopper ssr to closed circuit If the specify counter target is reached hopper ssr will immediately change to open circuit The hopper sensor channel counter4 will set to counter mode automatically counter overflow event will also log in the event queue if all actions are finished 3 37 2 Test Example Connect DI31 with DO19 Set counter4 parameter as trigger type to 0 timeout value to 0 counter target to 100 Use 3 22 to get hopper ssr status It should be on now And then Use 3 39 to generate 100 pulses with 1ms high duty duration from PG1 After PG1 is finished use 3 22 t
27. ange from PG1 to PG8 gt cycle The memory address to put the remaining cycle of the selected pulse generator 6 2 4 30 Stop Pulse Generator Description Immediately stop the selected pulse generator Syntax stopPg i32 pg u16 cycle Argument 84 gt pg Pulse generator number Range from PG1 to gt cycle The memory address to put the remaining cycle of the selected pulse generator 6 2 4 31 Set Counter Enable Status Description Set the enable status of the selected counter Syntax enableCnt i32 cnt u32 enable Argument gt cnt Counter index Range from CNT1 to enable The enable status of the selected counter 0 indicates the input channel works as a general purpose input 1 indicates the input channel works as a counter 6 2 4 32 Clear Counter Value Description Clear the selected pulse generator value to zero and feedback the current value Syntax clearCnt i32 cnt u16 value Argument gt cnt Counter index Range from CNT1 to CNT4 value The memory address to put the current counter value of the selected counter 6 2 4 33 Set Counter Parameters Description Set all parameters of the selected counter and immediately start it Syntax setCnt i32 cnt u8 type u8 timeout u16 target Argument gt cnt Counter index Range from CNT1 to CNT4 type O indicates counter increases while rising edge is detected 1 indicates counter increases while falling edge is detected
28. ase EVENT printf Get input event channel d is 96s n event channel event value on off break 73 case EVENT PG printf Get pulse generator finish event PG d n event channel 1 break case EVENT TIMER printf Get timer finish event Timer d n event channel 1 break Errbox registerAgc if Errbox 0 printf Register Card Error n setCallBack IOIST 6 2 3 SRAM 6 2 3 1 Set SRAM Mode Description This function is used to set SRAM operation mode Syntax setSramMode u8 mode Argument mode SRAM mode 0 indicates independent mode 1 indicates replicated mode 6 2 3 2 Get SRAM Mode Description This function is used to get SRAM operation mode Syntax getSramMode u8 mode Argument gt mode The memory address to put the SRAM operation mode 6 2 3 3 Read Byte from Memory Description This function is used to read SRAM data in byte alignment Syntax 74 getSramByte 32 offset u8 value Argument gt offset SRAM offset to read gt value The memory address to put SRAM data 6 2 3 4 Read Word from Memory Description This function is used to read SRAM data in word alignment Syntax getSramWord u32 offset u16 value Argument Offset SRAM offset to read must in word alignment value The memory address to put SRAM data 6 2 3 5 Read Double Word from Memory Description This function is used to read SRAM data in double word alignmen
29. cation The provided software is available on both Windows and Linux The API can be classified into two subclasses Acrosser Gaming Core V2 AGC2 and Acrosser Gaming Agent V2 AGA2 The purpose of this document is try to guide users to use the demo application 101 Chapter 2 SRAM This chapter describes about SRAM test tool 2 1 Get SRAM mode 2 1 1 Test Purpose To get SRAM operating mode 2 1 2 Test Example SRAM supports two operating mode To test independent mode use 2 2 Set SRAM mode and set mode to 0 Then use 2 6 to set offset 0x20000 under 4MB setting or 0x10000 under 2MB setting and set data as 0x55 After then use 2 6 to set offset OxO and data as 0x0 Use 2 3 to get offset 0 0 and verify if its value is OxO and get offset 0x20000 under 4MB setting or 0x10000 under 2MB setting and verify if its value is 0x55 If so SRAM is running in independent mode To test replication mode use 2 2 Set SRAM mode and set mode to 1 Then use 2 6 to set offset 0 20000 under 4MB setting or 0x10000 under 2MB setting and set data as 0x55 After then use 2 6 to set offset 0 0 and data as 0x0 Use 2 3 to get offset 0 0 and verify if its value is 0x0 and get offset 0x20000 under 4 setting or 0 10000 under 2MB setting and verify if its value is 0 0 If so SRAM is running in replication mode 2 1 3 Test Criteria As stated at 2 1 2 2 2 Set SRAM mode 2 2 1 Test Purpose To set SRAM operation mode 2 2 2 Test Example Set mode 0 as indepe
30. de and data It will turn back within 5 10 seconds 55 pA 7400 Driver Utility Application Document Chipset v Audio v LAN TPM Installing Chipset driver now Select Clear Browse All All A Disc close gionis Click the to browse the CD contents 56 Acrosser Driver Disc D File Edit View Favorites Tools 2 Search Folders Ez x ACEB7400 utility e My Documents 3 Computer autorun board Se Local Disk C Setup Information Configuration Settings s Acrosser Driver Disc D 1KB 3 KB 400 utility J Control Panel Shared Documents Administrator s Documents Network Places Recycle Bin setup setup Acrosser Technology Co Ltd Q Close Click the icon to close the program 5 1 2 Utility Page There are three utilities for ACE B7400 AGC test utility is used to test on board gaming function Flash tool is used to update on board flash data Sample code contains the windows sample code to use Acrosser s APIs The detailed information about how to use APIs please refers to Software Programming Guide 57 ECROSSER ACE B 400 Driver Utility Application Document AGC test utility Flash tool Sample Code Select Clear 4 Install Browse Close All All 4 Disc Q SE ba a0 CN aem one k v3 gt Double click the AGC test uti
31. duction Acrosser provides the driver CD including the drivers utilities applications and documents For Windows environment it can be guided by the setup program for Linux environment the related files can be found at folder ACEB7400 Linux The TPM drivers for Linux are not included in this disc Once putting into optical driver it will run automatically The driver CD will also detect the MB information to see if they are matched The following error messages appear if you get an incorrect driver CD It indicates that the program gets wrong board information 52 5 1 1 Driver ECROSSER ACE B7400 Driver Utility Application Document Chipset Audio LAN TPM All All Disc Select Clear 4 Install e Browse Q Close Click the item all the drivers will be selected 53 ECROSSER 7400 Driver Utility Application Document Chipset V Audio v LAN TPM All All Disc Select Clear A Install Browse Q Close tetto Clear All Click the item all selected items will be cancelled 54 EcnossEn ACE B7400 Driver Utility Application Document Chipset Audio All All 4 Disc Select Clear A Install Browse Q Close A Install Click the Install icon to install the selected drivers ps It is normal to get temporary blank screen while installing Chipset driver since VGA device is switching resolution mo
32. e To get secondary RTC value 6 1 2 Test Example Use 6 2 to set system time The default password is 00000000 6 1 3 Test Criteria Use this function to get secondary RTC value if it is equal to system time the test is passed otherwise it is failed 6 2 Set RTC by system time 6 2 1 Test Purpose To set secondary RTC value by system time 6 2 2 Test Example Refer to 6 1 2 6 2 3 Test Criteria Refer to 6 1 3 6 3 Set RTC by user setting 6 3 4 Test Purpose To set secondary RTC value by user setting 6 3 2 Test Example Set secondary RTC value to 2011 1 1 0 0 0 and week day is 1 And then use 6 1 to verify it 6 3 3 Test Criteria If getting value is near with the setting value the test is passed otherwise it is failed 6 4 Get AGA version information 6 4 4 Test Purpose To get AGA version information 6 4 2 Test Example None 6 4 3 Test Criteria If AGA version v0 5 and AGA model 7400 are shown the test is passed otherwise it is failed 6 5 Get Intrusion logs 6 5 1 Test Purpose 116 To get intrusion event logs 6 5 2 Test Example The default password is 00000000 6 5 3 Test Criteria If a list of event logs is shown the test is passed otherwise it is failed 6 6 Clear Intrusion logs 6 6 1 Test Purpose To clear intrusion logs 6 6 2 Test Example The default password is 00000000 6 6 3 Test Criteria If Return 00000000 is shown the test is passed otherwise it is failed 6 7 Set Intrusion log mask
33. e system will hang within one minute Syntax getTrustTime u16 time Argument time The memory address to put verification time value The value is unit of seconds and at most 6000 6 3 6 7 Set ProtectU 2 0 Verification Time Description Set ProtectU 2 0 verification time ProtectU2 0 will require a successful check within verification time Otherwise the system will hang within one minute Syntax setTrustTime u16 time Argument time The verification time to set The value is unit of seconds and at most 6000 6 3 6 8 Check ProtectU 2 0 Hash Value Description 94 Send hash value to check Syntax checkTrust u8 hash Argument gt hash The memory address to put 64 bytes hash value 6 3 6 9 Check ProtectU 2 0 Hash Value By Assigned File Description Send hash value to check The hash value is calculated by an assigned file on the fly Due to the different file handle mechanism under different operation system will require different argument Please see the example bellowed Syntax Windows checkTrustByFile HANDLE fd Linux checkTrustByFile FILE fp Argument gt fd The file handle of the assigned file gt fp The file structure pointer of the assigned file Example Windows u8 buffer 256 HANDLE fd input file name to calculate 512 bits hash value scanf s buffer fd CreateFile char buffer GENERIC READ 0 NULL OPEN EXISTING NULL NULL if INVALID HANDL
34. ed 92 Syntax Windows setHashByFile HANDLE fd Linux setHashByFile FILE fp Argument gt fd The file handle of the assigned file gt fp The file structure pointer of the assigned file Example Windows u8 buffer 256 HANDLE fd input file name to calculate 512 bits hash value scanf s buffer fd CreateFile char buffer GENERIC READ 0 NULL OPEN EXISTING NULL NULL if INVALID HANDLE VALUE fd printf Failed to open fileAn return setHashByFile fd Linux u8 buffer 256 FILE fp input file name to calculate 512 bits hash value scanf s buffer fp fopen char buffer r if fp printf Failed to open fileAn return setHashByFile fp 6 3 6 4 Get ProtectU 2 0 Operating Mode 93 Description Get ProtectU 2 0 operating mode Syntax getTrustMode u8 mode Argument gt mode The memory address to put operating mode value 0 indicates Disable 1 indicates Unlock Enable 2 indicates Lock Enable 6 3 6 5 Set ProtectU 2 0 Operating Mode Description Set ProtectU 2 0 operating mode Syntax setTrustMode u8 mode Argument gt mode The operating mode value to set 0 indicates Disable 1 indicates Unlock Enable 2 indicates Lock Enable 6 3 6 6 Get ProtectU 2 0 Verification Time Description Get ProtectU 2 0 verification time ProtectU2 0 will require a successful check within verification time Otherwise th
35. el stores the timer index For a pulse generator finished event channel stores the pulse generator index For a counter overflow event channel stores the counter index For a counter timeout event channel stores the counter index gt u32 value the related value of event For a general purposed input event value stores the channel high low value For a timer timeout event it is zero For a pulse generator finished event it is zero For a counter overflow event value stores the current counter value For a counter timeout event value stores the current counter value 6 2 2 4 Get Event Count Description 72 Get how many events staying in device event queue Syntax getEventCnt u16 count Argument gt count The memory address to put the number of events in queue 6 2 2 5 Clear Event Count Description Remove all queued events in device event queue and also reset counter to zero Syntax clrEventBuf void Argument gt None 6 2 2 6 Set Callback Function Description Set the callback function pointer Syntax setCallBack AgcCallback agcCallback Argument gt agcCallback The callback function pointer Example void IOIST Event event switch event type case EVENT_CNTOF printf Get counter reach target event CNT d value d n event channel 1 event value break case EVENT_CNTTO printf Get counter timeout event CNT d value d n event channel 1 event value break c
36. ent each Tower LAMP output supports open drain 1A max current 2 Eight Meters support pulse Generator function 3 All output pin is open drain circuit and operation maximum voltage cannot over 30V 27 m CN6 CN7 Gaming IO Input Connector Micro FIT 3 0mm 2 8 PINs CN6 Pin Signal Pin Signal 1 Button 12 9 Touch Cal Key Lock 2 Button 13 10 Spare Key Lock 3 Button 14 11 Coin In Signal A 4 Button 15 12 Coin In Signal B 5 Button 16 13 Bill In 6 Dissolve Key Lock 14 Hopper Sensor 7 OM Key Lock 15 GP0 8 Setup Key Lock 16 1 CN7 Pin Signal Pin Signal 1 Door Switch 1 9 Button 4 2 Door Switch 2 10 Button 5 3 Door Switch 3 11 Button 6 4 Door Switch 4 12 Button 7 5 Door Switch 5 13 Button 8 6 Button 1 14 Button 9 7 Button 2 15 Button 10 8 Button 3 16 Button 11 Note 1 All input pin logical high level is 5V 24V logical low level is OV 1 5V 2 Coin In Signal A Coin In Signal B Bill In and Hopper Sensor support input counter fuction 28 Option Choice Description IDE HDD Enter To auto detect the HDD s size head On this channel Auto Detection Auto Allows BIOS to automatically detect IDE SATA devices during POST None None Select this if no IDE SATA devices are used and the Auto IDE Channel 0 Master system will skip the automatic detection step and allow for Manual faster system start up Manual User can ma
37. eral Usage 6 3 1 1 Get AGA2 Version Information Description This function is used to get the version information of AGA2 Syntax Agalnfo agalnfo Argument agalnfo The memory address to put Agalnfo structure Agalnfo structure gt u8 model 8 8 bytes model information u8 majorVersion 2 2 byte major version of AGA2 87 gt u8minorVersion 1 byte minor version of AGA2 6 3 1 2 Set AGA2 Password Description This function is used to set the password of AGA2 The default password is 00000000 in ASCII code Syntax setPwd 8 oldpwd 8 newpwd Argument gt oldpwd The memory address to put the old 8 bytes password gt newpwd The memory address to put the new 8 bytes password 6 3 2 Real Time Clock 6 3 2 1 Get Real Time Clock Description Get the real time clock Syntax getRtc struct rtc Argument rtc The memory address to put the tm structure 6 3 2 2 Set Real Time Clock Description Set real time clock Syntax setRtc struct tm rtc pwd Argument rtc The tm structure to put the assigned time pwd The memory address to put the 8 bytes password 6 3 3 Event Log 6 3 31 Get Intrusion Event Log Description Get all intrusion event logs and clear them at the same time Syntax getintrlog Intrlog intrlog pwd Argument gt intrlog The memory address to put the Intrlog structure There are eight intrusion events
38. erwise the test is failed 6 13 Read EEPROM 6 13 1 Test Purpose To read a byte from EEPROM 6 13 2 Test Example Use 6 14 to write EEPROM offset 0 value 0 And then use this function to get EEPROM offset 0 value 6 13 3 Test Criteria If getting value is equal to 0 the test is passed otherwise it is failed 6 14 Write EEPROM 6 14 1 Test Purpose To write a byte to EEPROM 6 14 2 Test Example Refer to 6 13 2 6 14 3 Test Criteria Refer to 6 13 3 6 15 Auto test EEPROM 6 15 1 Test Purpose To test EEPROM r w automatically 6 15 2 Test Example 118 6 15 3 Test Criteria If Verify data passed is shown the test is passed otherwise it is failed 119 Chapter 7 Security 7 1 Set AES key 7 1 1 Test Purpose To set AES key 7 1 2 Test Example Set AES key as FFEEDDCCBBAA99887766554433221100 7 1 3 Test Criteria If Setup AES key to FFEEDDCCBBAA99887766554433221100 is shown the test is passed otherwise it is failed 7 2 Set hash value by file 7 2 1 Test Purpose To set hash value by assigned file 7 2 2 Test Example Assign an existing file name 7 2 3 Test Criteria If Set Hash value by file success is shown the test is passed otherwise it is failed 7 3 Set hash value 7 3 1 Test Purpose To set hash value 7 3 2 Test Example Set hash value as FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 7 3 3 Test Criteria If Set hash va
39. et timer finish event Timer1 is shown the test is passed otherwise it is failed 4 2 Stop timer 4 2 1 Test Purpose To stop a timer 4 2 2 Test Example Use 4 1 to set timer 1 parameters as mode to 0 timebase to 2 and range to 0x10 Use this function to stop timer 1 before it timeouts 4 2 3 Test Criteria If nothing happened after 16 seconds the test is passed otherwise it is failed 4 3 Get timer value 4 3 1 Test Purpose To get a timer value 4 3 2 Test Example Use 4 1 to set timer 1 parameters as mode to 0 timebase to 2 and range to 0x10 Use this function to get timer 1 value 4 3 3 Test Criteria If Timer 1 remains xx cycles is shown the test is passed otherwise it is failed 114 Chapter 5 Flash 5 1 Get flash value 5 1 1 Test Purpose To get flash value by byte 5 1 2 Test Example Use flash tool utility to write file to flash ram Use this function to get offset 0 data 5 1 3 Test Criteria If getting data is equal to the first byte of written file the test is passed otherwise it is failed 5 2 Flash r w test 5 2 1 Test Purpose To test flash r w automatically 5 2 2 Test Example This function will automatically generate data to write to flash and then verify it one by one 5 2 3 Test Criteria If R W test passed is shown the test is passed otherwise it is failed 115 Chapter 6 AGA To be noted you have to set the correct AES key to successfully communicate with AGA 6 1 Get RTC 6 1 1 Test Purpos
40. i aided ded b edidit ue dnd ac ut ecu due 7 Chapter 2 Procedures of Assembly Disassembly 10 2 1 SO DIMM Installation 10 2 2 O 14 2 J ATA 5 15 Board G de DUI D nl S n M RU mE 16 Chapter asas co ER VE DNE 17 1 1 Specifications s DID LM DIM I DEM D 17 1 2 Package uu eec uidit tet EOD D ERE AREE tude 18 1 3 Bloek ETA u TNT TT 19 Chapter 2 H W Information zs cootra aae te abe 20 2 1 Mainboard illustration Top Side UE d E Ed 20 2 2 Locations ports amp Jumper Setting Definition Top 22 Chapter BIOS Selllndsss5 doas teas ebat Aa i Ma Ma tA AM 30 Sor Mali setup ois re Su BI 31 3 2 Advanced 33 QU AMBESOUD 34 3 4 Superio 37 3 5 SOUL ede ne Rea a 41 CAm OOSTE oE E MM M M A mM M A d Me 44 S EXILSOLUDS au pa u 45 Chapter 4 Function DescHpHDEs sehen aea encima qoe d gencre cb
41. is interrupt is related to counter timeout event To be noted even timeout event happened Hopper SSR will not change status target The counter will trigger an interrupt if it counts to target value This interrupt is related to counter overflow event Counter value will automatically return to O if it counts to target value 6 2 5 Timer 6 2 5 4 Set Timer Parameters Description Set all parameters of the selected timer and immediately start it Syntax setTimer i32 timer u8 mode u8 base u16 value Argument gt The timer number Range from TIMER1 TIMER4 86 gt mode The running mode the selected timer 0 indicates simple timer 1 indicates cycle timer Cycle timer mode will immediately restart from setting value once it counts to zero gt gt The time base of the selected timer 0 indicates the base is 1 1 indicates the base is 1ms 2 indicates the base is 1s value The countdown value of the selected timer 6 2 5 2 Get Timer Current Remaining Count Description Get the remaining count of the selected timer Syntax getTimer i32 timer u16 value Argument gt Timer number Range from TIMER1 TIMER4 value The memory address to put the remaining count of the selected timer 6 2 5 3 Stop Timer Description Stop the selected timer Syntax stopTimer i32 timer Argument gt Timer number Range from TIMER1 TIMER4 6 3 AGA2 6 3 1 Gen
42. lectable TTL RS232 RS485 e Mini PCle Slot USB 5 6 cctalk Connector UART Port 5 6 CN25 CN2 CN DIMM1 CN DIMM2 one Ru45 with Dual USB 2 0 2 1 Channel Audio Amplifier Output DDR3 SODIMM Socket Connector LAN 2 amp USB 3 4 Connector note3 CN26 CASESW1 CN1 7 One RJ45 with Dual USB 2 0 Q System Power input Connector 25 Micro switch for Chassis Connector LAN 1 amp USB 1 2 y Open Close Detection COM1_2 RS U43 BAT BH1 UART RS 232 Port 1 2 ub Er T48N T52R System Battery Holder Supports 9 bits Protocol U44 COM3 4 UART RS 232 Port 3 4 Q UE Hudson E1 Fusion Controller Note1 PWR BTN can be used as Power Button to power on system when FPIO1 3 4 is not shroted If FPIO1 3 4 is shroted by a jumper head system will automatically boot up when power applied Note2 Please Refer to Page8 for Rears Panel IO Configurations Note3 AMD eOntario Platform supports maximum totle 8GB DDRIII Memory 21 2 2 Locations of IO ports amp Jumper Setting Definition Side jm E 2 20 20 19 18 17 16 14 13 12 FPIO1 SATA PWR1 SATA PWR2 BAT A1 BAT B1 System Power Button Two JST 2 5mm SATA Power Lithium Battery Connector for Pin header amp Reset Jumper Connectors SRAM AGA and secured
43. ling ECROSSER ACE B 400 Driver Utility Application Document Acrobat Reader 9 2 AGC All All Disc Select Clear Browse Install 4 nsta 3 Q Close Double click the Acrobat Reader 9 2 to install the application 60 Driver Acrobat Reader 9 AGC Please wait while the Adobe Reader 9 2 Setup is being processed This will take some time depending on your operating system and hexdwexe Processing Adobe Reader 9 2 gt Double click the to install the AGC driver It will install siliently 61 gt gt 5 1 4 Document Page This page will provide Acrosser board and system user manual Please remember to install the Acrobat Reader before you read the manual ACE B7400 Driver Utility Application Document System User Manual Board User Manual All 4 Disc Select Clear A install Browse Q Close Double click the manual item to read the user manual Please install the Acrobat Reader when you see the message 62 EcnossEn ACE B7400 Driver Utility Application Document System User Manual Board User Manual Disc lt n Select Clear 4 Browse Install Close 63 5 2 Windows 32bit Driver Installation 5 2 1 Please put the driver disk to optical driver The program will appear on the screen Please click the Select icon MEsRossER ACE B 400 Driver Utility Application Document
44. lity to the utility You have to install AGC driver in application tab first in order to run AGC test utility successfully cx D MCEB7400M pitbin age 2ap exe x Acrosser Gaming 1 0 Board Test Program Flash test suite AGA test suite Security test suite gt Please run flash_tool exe in command line The tool will read the content of the assigned file and write it to on board flash 58 Command Prompt 2400 1 gt 1 001 Please identify the bin file to write flash Format WriteFlash foo bin ACEB 74QG ApiN bin gt D NGCEB 488 fipi bin D NGCEB 7488 fipi bin D NGCEB 7488 fipi bin D NGCEB 488 fipi bin D NGCEB 488 fipi bin D NGCEB 488 fipi bin D NGCEB 7488 fipi bin D NACEB 7400NApiNbin gt gt Double click on sample code will bring out the file explorer point to the sample code folder pu sample code File Edit View Favorites Tools Search Folders E Address D ACEB7400 Api sample_code File and Folder Tasks CJ 2 agc2lib a new folder Publish this folder to the web Flash tool Release EZ Share this folder ACE B7400 AGC2 sln 224 SLN File 393 Other Places e Api E My Documents Shared Documents Computer amp My Network Places Details 59 5 1 3 Application There is one application for Acrobat reader instal
45. lue to FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 is shown the test is passed otherwise it is failed 7 4 Gettrust mode 7 4 4 Test Purpose To get trust mode 7 4 2 Test Example Use 7 5 to set trust mode as 0 And then use this function to get trust mode 7 4 3 Test Criteria If Trust mode is disabled is shown the test is passed otherwise it is failed 7 5 Set trust mode 7 5 1 Test Purpose To set trust mode 7 5 2 Test Example Refer to 7 4 2 7 5 3 Test Criteria 120 Refer to 7 4 3 7 6 Gettrust time 7 6 14 Test Purpose To get trust time 7 6 2 Test Example Use 7 5 to set mode to 0 Use 7 7 to set trust time to 1000 And use this function to get trust time 7 6 3 Test Criteria If getting value is equal to 1000 the test is passed otherwise it is failed 7 7 Settrust time 7 7 4 Test Purpose To set trust time 7 7 2 Test Example Refer to 7 6 2 7 7 3 Test Criteria Refer to 7 6 3 7 8 Check trust by file 7 8 4 Test Purpose To generate a 64 byte hash value by an assigned file on the fly and then check it with AGA 7 8 2 Test Example Use 7 2 to set hash value by an existing file Use this function to check value by the same file 7 8 3 Test Criteria If Return 00000000 is shown the test is passed otherwise it is failed 7 9 Check trust by hash value 7 9 1 Test Purpose To check hash value with AGA 7 9 2 Test Example Use 7 3 to set hash value
46. m 2 3 PINs PIN SIGNAL PIN SIGNAL 1 Amplified Front Left 4 Amplified Front Left 2 Amplified Front Right 5 Amplified Front Right 3 Amplified LFE 6 Amplified LFE Note 1 ACE B7400 with Audio Amplifier is D type amp 2 Amplified Right and Left channel support 10Watt max Output Amplified LFE channel supports 20Watt max Output m CN3 Selectable TTL RS232 RS485 cctalk Connector Micro FIT 3 0mm 2 7 PINs 1 5 232 Tx 485 COMB TTL 232 Rx 485 2 COM6 232 Tx 485 COM6 232 Rx 485 9 3 COM5 ccTalk Data COM6 ccTalk Data 10 4 COM5 ccTalk Vcc COM6 ccTalk Vcc 11 5 GND GND 12 6 GND GND 13 7 GND GND 14 26 m CN4 CN5 Gaming IO Output Connector Micro FIT 3 0mm 2 10 PINs CN4 Pin Signal Pin Signal 1 LAMP 1 11 LAMP 9 2 LAMP 2 12 LAMP 10 3 LAMP 3 13 LAMP 11 4 LAMP 4 14 LAMP 12 5 LAMP 5 15 LAMP 12 6 LAMP 6 16 Tower LAMP 1 7 LAMP 7 17 Tower LAMP 2 8 LAMP 8 18 Tower LAMP 3 9 GND 19 GND 10 GND 20 GND CN5 Pin Signal Pin Signal 1 Key in Meter 11 Coin Enable 2 Bill in Meter 12 Bill Enable 3 Coin in Meter 13 Hopper SSR 4 Pay out Meter 14 GPO 5 Key out Meter 15 GP1 6 Hand pay Meter 1 16 GP2 7 Hand pay Meter 2 17 GP3 8 Spare Meter 18 GP4 9 GND 19 GND 10 GND 20 GND Note 1 Each LAMP output supports open drain 500MA max curr
47. ndent mode Set mode 1 as replication mode 2 2 3 Test Criteria Use 2 1 to get SRAM operation mode to verify if the same as setting mode 2 3 Get SRAM data in byte style 2 3 1 Test Purpose read SRAM data with byte alignment 2 3 2 Test Example Use 2 6 to set offset 0x0 data 0x0 And then use this function to get offset 0x0 data 2 3 3 Test Criteria 102 If getting value is equal to 0 then test passed 2 4 Get SRAM data in word style 2 4 1 Test Purpose To read SRAM data with word alignment 2 4 2 Test Example Use 2 7 to set offset 0x0 data 0 0 And then use this function to get offset 0x0 data 2 4 3 Test Criteria If getting value is equal to 0 then test passed 2 5 Get SRAM data in double word style 2 5 1 Test Purpose To read SRAM data with double word alignment 2 5 2 Test Example Use 2 8 to set offset 0x0 data 0 0 And then use this function to get offset 0x0 data 2 5 3 Test Criteria If getting value is equal to 0 then test passed 2 6 Set SRAM data in byte style 2 6 1 Test Purpose To write SRAM data with byte alignment 2 6 2 Test Example Refer to 2 3 2 6 3 Test Criteria Refer to 2 3 2 7 Set SRAM data in word style 2 7 1 Test Purpose To write SRAM data with word alignment 2 7 2 Test Example Refer to 2 4 2 7 3 Test Criteria Refer to 2 4 2 8 Set SRAM data in double word style 2 8 1 Test Purpose To write SRAM data with double word alignment 2 8 2 Test Example Refer to 2 5 2 8 3 Test C
48. nector for power input Internal I O 1 2x USB 2 0 2 Onboard intrusion switch 3 1x intrusion input from on board 2 pin JST connector System fan 2x temperature controllable system fan Operation 0 to 60 Degrees Celsius temperature Expansion Module Not Available Power requirement Power supply from external 1 12 amp 24V from 8 pin Micro fit connector 1 2 Packing List Check if the following items are included in the package ACE S7400 system Cable accessory Software utility CD Mounting brackets 1 3 Features AMD Fusion Single core T52R or Dual cores T48N processor Up to 8GB DDR3 memory international gaming interface with micro fit connectors 42 digital inputs and 32 high current digital outputs Intrusion logger 6 serial ports includes 2 ccTalk ports 8 USB ports to connect different peripherals Dual 1MB battery back up SRAM with battery low monitoring max Dual 2MB SRAM 4 16 bit timers 5 1 CH audio output with amplifier power to meet gaming applications iButton ProtectU amp amp EEPROM for software security 180 1 4 System Dissection 1 4 1 Dimensions SEE DETAL Datali 97 1 4 2 Front Panel t t Digital Input lt CN7 gt Digital Output lt CN4 gt Digital Input CN6 COMS amp COMS CN3 Digital Output lt CN5 gt
49. nternal Omad 16 010470 1 11201 Wocfer TSI pin micro fit 3 0mm SSS 10W analog ampiter TPA3110D2 2CH AMD HUDSON M1 20W EEPROM Kbytes PCIE GEN UF 4 x1 US820 12 1 12 SATA INT CLXGEN AZALIA HD AUDIO PCIVF Sev LPCVF 170 20131 2 RraseUsn 4 160012421 6 160010421 5 2x7 pin micro fit Power Input Conn CPUFmx1 160910073 224 micro fit 3 08 SOD SYS Fanx2 Fan 19 Chapter 2 H W Information This chapter describes the installation of ACE B7400 At first it shows the Function diagram and the layout of ACE B7400 It then describes the unpacking information which you should read carefully as well as the jumper switch settings for the ACE B7400 configuration 2 1 Mainboard illustration Top Side 20 LED1 CN7 CF1 Green LED Powered Gaming Input Isolation Connector Slot 1 Orange LED HDD Active note2 CN6 PWR_BTN1 2 System Power Button note1 Connecter o CF Card Slot 2 CN4 DVI D1 Gaming Open Drain Output y 940 9 DVI D Connector Acrosser Gaming Core Connector note2 CN4 DVI I1 SATA1 SATA2 B Gaming Open Drain Output e DVI I Connector Connector note2 SATA 3 0 Connectors ene MINI PCIE1 Q Dual Port USB 2 0 Connector Se
50. nually input the correct settings Use this to set the access mode for the hard drive The four Access Mode options are CHS LBA Large Auto Capacity N A Capacity of currectly installed hard drive Cylinder N A Number of cylinders Head N A Number of heads Precomp N A Write precomp Landing Zone N A Landing zone Sector N A Number of sectors 29 Chapter 3 BIOS Settings This chapter describes the BIOS menu displays and explains how to perform common tasks needed to get the system up and running It also gives detailed explanation of the elements found in each of the BIOS menus The following topics are covered Main Setup Advanced Chipset Setup AMD Setup SuperlO Setup Security Setup Boot Setup Exit Setup 30 3 1 Once you enter the Phoenix BIOS CMOS Setup Utility the Main Menu will appear on the screen Use the arrow keys to highlight the item and then use the lt Pg Up gt lt Pg Dn gt keys to select the value you want in each item Advanced AMD Superio Boot System Date ystem Time Note Listed at the bottom of the menu are the control keys If you need any help with the item fields you can press the F1 key it will display the relevant information Set the system date Note that the Day automatically System Date N A changes when you set the date System Time N A Set the system time Processor Type N A This item displays the CPU Type Processor Speed N A
51. o get hopper ssr status It should be off now If so the test is passed otherwise it is failed 3 37 3 Test Criteria Refer to 3 37 2 3 38 Enable pulse generator 3 38 1 Test Purpose To enable pulse generator 3 38 2 Test Example None 112 3 38 3 Test Criteria None 3 39 Set and start pulse generator 3 39 1 Test Purpose To set and start a pulse generator 3 39 2 Test Example Refer to 3 35 2 3 39 3 Test Criteria Refer to 3 35 3 3 40 Stop pulse generator 3 40 1 Test Purpose To stop pulse generator 3 40 2 Test Example Use 3 39 to generate 100 pulses with 100ms high duty duration from PG1 Before PG1 is finished use this function to stop PG1 3 40 3 Test Criteria If Pulse generator 1 remains xx cycles xx can be any integer smaller than 100 is shown the test is passed otherwise it is failed 3 41 Get pulse generator value 3 41 1 Test Purpose To get pulse generator value 3 41 2 Test Example Use 3 39 to generate 100 pulses with 100ms high duty duration from PG1 Before PG1 is finished use this function to get PG1 value 3 41 3 Test Criteria If Pulse generator 1 remains xx cycles xx can be any integer smaller than 100 is shown the test is passed otherwise it is failed 113 Chapter 4 Timer 4 1 Setand start timer 4 1 4 Test Purpose To set and start a timer 4 1 2 Test Example Use this function to set timer 1 parameters as mode to 0 timebase to 2 and range to 0x05 4 1 3 Test Criteria After 5 seconds if G
52. oDir u32 dir Argument gt dir The memory address to put the direction indicator 6 2 4 9 Set Spare IO Status Description Set the output status of the selected spare IO channel Only the channel which direction bit is set to 1 takes effect Syntax setGpioStatus i32 ch u32 status Argument gt ch Spare I O channel index From GPIOO to GPIO15 Status O indicates output low 1 indicated output high 6 2 4 10 Get Spare IO Status Description Get the status of the spare IO channel Syntax getGpioStatus u32 status Argument Status The memory address to put the spare IO channel status Every bit is related to one spare I O channel e g bit 0 indicated spare I O channel 0 and so on For input channel 0 indicates input low 1 indicates input high For output channel 0 indicates output low 1 indicates output high 6 2 4 11 Get Door Switch Status Description Get the status of the selected door switch Syntax getDoorSw i32 sw u32 status Argument gt Sw Door switch number ALL indicates getting all door switches To specify a dedicated door switch set value range from 1 to DOOR7 gt status The memory address to put the channel status 0 indicates output low 1 indicates output high If sw equals to ALL bitO the lowest significant bit of value means the status 79 6 2 4 12 Get Button Status Description Get the status of the selected button Syntax getBut i32 but u32 status
53. ram Buffer UMA Fram Buffer Size 256M Size 384M 512M 1G 2G 36 3 4 Superio Setup gt Super Setting Enter 37 Serial Port 1 Fan Control Function 38 SYS Fan2 Mode Disabled 3F8 IRQ4 2F8 IRQ3 Sets the base I O port address and IRQ 3E8 IRQ6 for the onboard device 2bE8 IRQ7 338 IRQ5 Serial Port 1 2 3 4 5 6 238 IRQ11 These read only fields show the functions of the hardware thermal sensor by CPU CPU Temperature N A thermal diode that monitors the chip blocks to ensure a stable system Show you the current system System Temperature N A temperature CPU Fan Speed N A Show you the CPU Fan Speed SYS Fan1 2 Speed N A Show you the System Fan1 2 Speed 39 CPU VCore N A Show you the voltage of Vcore SYS 1 2 Mode Full Speed By Temperature Faull Fan Speed full on By Temperature Fan Speed by system temperature 40 System Target Temp 50 N A 60 40 3 5 Security Setup rent PM State TPM Action 41 Option Supervisor Password is Set Supervisor Password TEMP Support Current TPM State TPM Action N A Pressing lt Enter gt on this item for confirmation ENTER PASSWORD Enabled Disalbed N A No Change Enable Disable Activate Deactive Clear Enable and Activate Disable and Deactivate Set Owner Install with state True Set Owner Install with s
54. riteria Refer to 2 5 103 2 9 Verify SRAM using block access method 2 9 1 Test Purpose To verify SRAM access using block access API 2 9 2 Test Example It will automatically write and read and then verify SRAM data from offset 0 to maximum size It will run 1000 loops 2 9 3 Test Criteria A message such as The 0 th loop passed indicates the first time test loop success If any error occurs while testing a error message such as Error when verify SRAM data at offset will appear and indicate failure in which offset 104 Chapter 3 GPIO 3 1 Get channel status 3 1 1 Test Purpose To get digital I O channel status 3 1 2 Test Example Get channel 5 status using this function 3 1 3 Test Criteria If on board chassis switch is pushed you should get Channel 5 is on otherwise you should get Channel 5 is off If so the test is passed otherwise it is failed 3 2 door switch status 3 2 1 Test Purpose To get door switches status 3 2 2 Test Example Get door switch 6 status using this function 3 2 3 Test Criteria If on board chassis switch is pushed you should get Door 6 is on otherwise you should get Door 6 is off If so the test is passed otherwise it is failed 3 3 Get all door switches status 3 3 4 Test Purpose To get all door switches status 3 3 2 Test Example Refer to 3 2 3 3 3 Test Criteria Refer to 3 2 3 4 Get button status 3 4 1 Test Purpose To get button status 3 4 2 Test Example Connect DI7 with D
55. ror Code General Error Code Reserved 6 5 1 Code 0x01 registerAgc 0x02 releaseAgc 0x03 setCallBack 0x04 getEventBuf 0x05 getEventCnt 0x06 clrEventBuff 0x10 getDiIntEnable 0x11 setDiIntEnable 0x12 getDiDebounce 0x13 setDiDebounce 0x14 getChStatus 0x15 setDoStatus 0x16 getDoorSw 0x17 getBut 0x18 getKey 0x19 getDipSw getLamp Ox1B setLamp 0x20 getGpioDir 0x21 setGpioDir 0x22 getGpioStatus 0x23 setGpioStatus 0x24 getCoinInA 0x25 getCoinInB 0x26 getBillIn 0x27 getHopperSensor 0x28 getCoinEnable 98 O O 0 29 2 0 2 0x2C 0x2D 0x30 0x31 0x32 0x33 0x50 0x51 0x52 0x70 0x71 0x72 0x73 0x74 0x75 0x76 0x77 0x78 0x79 0x90 0x91 0x92 0x93 0x94 4 5 0xA6 OxA7 OxA8 0 9 OxAE OxAF setCoinEnable getBillEnable setBillEnable getHopperSsr getHopperSsr enablePg setPg getPg stopPg setTimer getTimer stopTimer getSramByte getSramWord getSramDword getSramBlock setSramByte setSramWord setSramDword setSramBlock setSramMode getSramMode enableCnt clearCnt setCnt getCnt setCoinHopper getRtc setRtc getIntrlog clrIntrlog getIntrlogEnable setIntrlogEnable OxAD getBatlog clrBatlog resetiBtn getiBtn se
56. s 3 17 2 Test Example Connect DI31 with DO23 Use 3 24 to set channel 65 as on 3 17 3 Test Criteria If Hopper Sensor is on is shown the test is passed otherwise it is failed 3 18 Get Coin Enable status 3 18 1 Test Purpose To get coin enable status 3 18 2 Test Example Connect DI22 with DO24 Use 3 19 to set coin enable as on Use 3 1 to get channel 22 status 3 18 3 Test Criteria Use this function to get coin enable status If Coin Enable is on is shown the test is passed otherwise it is failed 3 19 Set Coin Enable status 3 19 1 Test Purpose To set coin enable status 3 19 2 Test Example Refer to 3 18 3 19 3 Test Criteria If channel 22 is on the test is passed otherwise it is failed 3 20 Get Bill Enable status 3 20 1 Test Purpose To get bill enable status 3 20 2 Test Example Connect DI23 with DO25 Use 3 21 to set bill enable as on Use 3 1 to get channel 23 status 3 20 3 Test Criteria 108 Use this function to get bill enable status If Bill Enable is is shown the test is passed otherwise it is failed 3 21 Set Bill Enable status 3 21 1 Test Purpose To set bill enable status 3 21 2 Test Example Refer to 3 20 3 21 3 Test Criteria If channel 23 is on the test is passed otherwise it is failed 3 22 Get Hopper SSR status 3 22 1 Test Purpose To get hopper ssr status 3 22 2 Test Example Connect DI24 with DO26 Use 3 23 to set hopper ssr as on Use 3 1 to get channel 24 status 3 22 3 Test Criteria U
57. se this function to get hopper ssr status If Hopper SSR is is shown the test is passed otherwise it is failed 3 23 Set Hopper SSR status 3 23 1 Test Purpose To set hopper ssr status 3 23 2 Test Example Refer to 3 22 3 23 3 Test Criteria If channel 24 is on the test is passed otherwise it is failed 3 24 Set output channel status 3 24 1 Test Purpose To set output channel status 3 24 2 Test Example Connect DI0 with DO0 Use this function to set channel 42 as on Use 3 1 to get channel 0 status 3 24 3 Test Criteria If channel 0 is on the test is passed otherwise it is failed 3 25 Get lamp status 3 25 1 Test Purpose To get lamp status 3 25 2 Test Example Connect DI0 with DI0 Use 3 26 to set lamp 1 as on Use 3 1 to get channel 109 0 status 3 25 3 Test Criteria If Lamp 1 is is shown the test is passed otherwise it is failed 3 26 Get all lamps status 3 26 1 Test Purpose To get all lamps status 3 26 2 Test Example Refer to 3 25 2 3 26 3 Test Criteria Refer to 3 25 3 3 27 Set lamp status 3 27 1 Test Purpose To get lamp status 3 27 2 Test Example Refer to 3 25 2 3 27 3 Test Criteria If channel 0 is on the test is passed otherwise it is failed 3 28 Set all lamps status 3 28 1 Test Purpose To get all lamps status 3 28 2 Test Example Refer to 3 25 2 3 28 3 Test Criteria Refer to 3 27 3 3 29 Get GPIO port direction 3 29 1 Test Purpose To get GPIO port direction 3 29 2 Te
58. st Example Use 3 30 to set GPIO direction as 0xFF00 Use this function to get GPIO port direction 3 29 3 Test Criteria If GPIO port direction is OXFFOO is shown the test is passed otherwise it is failed 3 30 Set GPIO port direction 3 30 1 Test Purpose To set GPIO port direction 3 30 2 Test Example Refer to 3 29 2 110 3 30 3 Test Criteria Refer to 3 29 3 3 31 Get GPIO port status 3 31 1 Test Purpose To get GPIO port status 3 31 2 Test Example Use 3 30 to set GPIO direction as 0xFFFF Use 3 32 to set all GPIO status as 0 Use this function to get GPIO port status 3 31 3 Test Criteria If GPIO port status is 0x0000 is shown the test is passed otherwise it is failed 3 32 Set GPIO port status 3 32 1 Test Purpose To set GPIO port status 3 32 2 Test Example Refer to 3 31 2 3 32 3 Test Criteria Refer to 3 31 3 3 33 Enable counter 3 33 1 Test Purpose To set GPI channel to function as a counter 3 33 2 Test Example None 3 33 3 Test Criteria None 3 34 Clear counter 3 34 1 Test Purpose To clear counter value 3 34 2 Test Example Connect DI28 with DO16 Set counter 1 parameters as trigger type to 0 timeout value to 0 counter target to 100 Use 3 39 to generate 99 pulses with 1ms high duty duration Use this function to clear counter 1 value 3 34 3 Test Criteria If Counter1 value is 99 and cleared to 0 is shown the test is passed otherwise it is failed 3 35 Set counter parameters 3 35 1 Test Purpose
59. t Syntax getSramDword u32 offset u32 value Argument Offset SRAM offset to read must in double word alignment value The memory address to put SRAM data 6 2 3 6 Write Byte to Memory Description This function is used to write SRAM data in byte alignment Syntax setSramByte u32 offset u8 value Argument Offset SRAM offset to write value Value to write to SRAM 6 2 3 7 Write Word to Memory Description This function is used to write SRAM data in word alignment Syntax setSramWord u32 offset u16 value 75 Argument gt Offset SRAM offset to write must in word alignment value Value to write to SRAM 6 2 3 8 Write Double Word to Memory Description This function is used to write SRAM data in double word alignment Syntax setSramDword u32 offset u32 value Argument Offset SRAM offset to write must in double word alignment value Value to write to SRAM 6 2 3 9 Read Memory Block Description This function is used to read memory with a specified length Syntax getSramBlock u32 offset u8 buffer u32 size Argument gt offset SRAM offset to read gt buffer The start address of memory buffer to put SRAM data Size The memory block size in byte to read 6 2 3 10 Write Memory Block Description This function is used to write data to memory with a specified length Syntax setSramBlock u32 offset u8 buffer u32 size Argument
60. t Criteria Refer to 3 10 3 3 12 Get input channel interrupt enable value 3 12 1 Test Purpose To get input channel interrupt enable value 3 12 2 Test Example Use 3 13 to set channel 0 and enable value as 0 And then use this function to verify if channel 0 enable value is disabled 3 12 3 Test Criteria If The interrupt of input channel 0 is disabled is shown the test is passed otherwise it is failed 3 13 Set input channel interrupt enable value 3 13 1 Test Purpose To set input channel interrupt enable value 3 13 2 Test Example Refer to 3 12 2 3 13 3 Test Criteria Refer to 3 12 3 3 14 Get Coin In signal A status 3 14 1 Test Purpose To get Coin In signal A status 3 14 2 Test Example Connect DI28 with DO20 Use 3 24 to set channel 62 as on 3 14 3 Test Criteria If Coin In signal A is on is shown the test is passed otherwise it is failed 3 15 Get Coin In signal B status 3 15 1 Test Purpose To get Coin In signal B status 3 15 2 Test Example Connect DI29 with DO21 Use 3 24 to set channel 63 as on 3 15 3 Test Criteria 107 If Coin In signal is is shown the test is passed otherwise it is failed 3 16 Get Bill In status 3 16 1 Test Purpose To get Bill In status 3 16 2 Test Example Connect DI30 with DO22 Use 3 24 to set channel 64 as on 3 16 3 Test Criteria If Bill In is on is shown the test is passed otherwise it is failed 3 17 Get Hopper Sensor status 3 17 1 Test Purpose To get Hopper Sensor statu
61. t to ground open drain output is open SIGNAL 1 POWER 2 2 GND 2 1 16 JP18 485 Terminal Resistor Selection Jumper for UART6 2 1 17 JP17 485 Terminal Resistor Selection Jumper for UART5 JUMPER FUNCTION 1 2 default Termination 3 2 3 Non RS 485 terminal resistor is 120ohm JUMPER FUNCTION 1 2 default Termination 3 2 3 Non RS 485 terminal resistor is 120ohm 2 1 18 AUDIO1 Internal 5 1Channel Audio Pin Header 2 1 19 JP1 ccTalk Supply Power Selection Jumper PIN SIGNAL PIN SIGNAL 1 2 JUMPER FUNCTION 1 Front L 2 Front R 1 1 2 default 12 3 GND 4 GND 2 3 2 3 24V 5 Surround L 6 Surround R 9 10 24Vpower is from CN1 external power supply 7 104 GND 8 GND 9 Center 10 LFE 2 1 20 CASESW2 JST 2 0mm Chassis Open Close Detection Connector log PIN SIGNAL Li 2 1 1 Signal 2 GND 25 Rears Panel IO Configurations B CN1 System Power Input Connector Micro FIT 3 0mm 2 4 PINs PIN SIGNAL PIN SIGNAL 1 12V Input 5 12V Input 2 GND 6 GND 3 GND 7 GND 4 12V Input 8 24 Input Note 1 412V Power Input voltage tolerance is 10 2 24V Power Input is only use for cctalk Vs power supply m 2 1 Channel Audio Amplifier Output Connector Micro FIT 3 0m
62. tBillln u32 status Argument gt status The memory address to put the channel status 0 indicates open circuit 1 indicates closed circuit 6 2 4 20 Get Hopper Sensor Input Status Description Get the status of Hopper Sensor Syntax getHopperSensor u32 status Argument gt status The memory address to put the channel status 0 indicates open circuit 1 indicates closed circuit 6 2 4 24 Get Coin Enable Status Description Get the status of Coin Enable channel Syntax getCoinEnable u32 status Argument gt status The memory address to put the channel status 0 indicates switch off 1 indicates switch on 6 2 4 22 Set Coin Enable Status Description Set the status of Coin Enable channel Syntax setCoinEnable u32 status Argument 82 gt Status 0 indicates switch off 1 indicates switch on 6 2 4 23 Get Bill Enable Status Description Get the status of Bill Enable channel Syntax getBillEnable u32 status Argument gt status The memory address to put the channel status 0 indicates switch off 1 indicates switch on 6 2 4 24 Set Bill Enable Status Description Set the status of Bill Enable channel Syntax setBillEnable u32 status Argument Status O indicates switch off 1 indicates switch on 6 2 4 25 Get Hopper SSR Status Description Get the status of Hopper SSR channel Syntax getHopperSsr 32 status Argument gt status The memory address to put the channel status
63. tate False Enable Activate and Set Owner Install with Description The BIOS attempts to load the operating system from the devices in the sequence selected in these items When a password has been enabled you will be prompted to enter your password every time you try to enter Setup This prevents unauthorized persons from changing any part of your system configuration Type the password up to eight characters in length and press lt Enter gt The password typed now will clear any previous password from the CMOS memory You will be asked to confirm the password Type the password again and press lt Enter gt You may also press lt Esc gt to abort the selection and not enter a password To disable a password just press lt Enter gt when you are prompted to enter the password A message will confirm that the password will be disabled Once the password is disabled the system will boot and you can enter Setup freely For Onboard TPM Module Function Show Current TPM States N A 42 state True Disable Deactivate and Set Owner Install with state False Clear Enable and Activate Require PP for Provisioning Do not require PP for provisioning Require PP for clear Do not require PP for clear Enable Activate and Clear Enable Activate Clear Enable and Activate 43 3 6 Boot setup 44 3 7 Exit Setup Superio Exit Saving Changes Exit Saving Pressing lt Enter
64. tiBtn 99 OxBO setPwd OxB1 OxB2 OxB3 0xC1 OxD1 getInfo getEeprom setEeprom setHash 0xC3 0 4 0 5 0xC6 0xC7 0 8 0xC9 0 setFlash OxD2 setHashByFile getTrustMode setTrustMode getTrustTime setTrustTime check Trust checkTrustByFile getFlash eraseFlash 6 5 2 AGA Error Code 0 0 OxE2 OxE7 OxES 0 9 Handshake error Hash value does not match Check i2c slave address acknowledge fail Check i2c word address acknowledge fail Check i2c data byte acknowledge fail OxEA iButton device not presence OxEB Check password fail OxEC Confirm password fail OxEE Loops timeout fail 6 5 3 General Error Code 0x01 0x02 0x04 0x05 0x06 0x07 0x08 OxFF Serial port device fail open read write AGA2 handshake fail Incorrect input value Open AGC2 device fail Read write AGC2 device fail Create thread fail Access I2C bus fail Others unknown errors 100 Appendix Test Tool Guide Chapter 1 Introduction ACE B7400 is an All in One gaming control box based on AMD 780E platform It is designed for slot machine and AWP machine which requires powerful 3D video performance Besides powerful integrated graphic controller ACE B7400 integrates all gaming control features In order to ease the customer s operation on 7400 Acrosser provides device driver application interface API and source code of demo appli
65. to FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 FFEEDDCCBBAA99887766554433221100 And the use this function to check value by the same hash value 7 9 3 Test Criteria If Return 00000000 is shown the test is passed otherwise it is failed 121
66. trusion event log feature is enabled BitO the lowest significant bit of enable value indicates to door switch 1 bit1 indicates door switch 2 and so on 6 3 3 4 Set Intrusion Event Enable Status Description Set all intrusion event enable status Syntax setIntrlogEnable u8 enable u8 Argument gt enable The intrusion event enable value 0 indicates to disable event log feature 1 indicates to enable intrusion event log feature BitO the lowest significant bit of enable value indicates to door switch 1 bit1 indicates door switch 2 and so on pwd The memory address to put the 8 bytes password 6 3 3 5 Get Battery Low Event Log Description Get the battery low event log Syntax getBatlog i32 id strut tm batlog Argument gt 1 Battery index gt The memory address to put the tm structure of the battery low event 6 3 3 6 Clear Battery Low Event Log Description Clear the battery low event log Syntax cirBatlog 132 id u8 pwd 90 Argument gt 1 Battery index pwd The memory address to put the 8 bytes password 6 3 4 iButton 6 3 4 4 Reset iButton Description Reset the iButton Syntax resetiBtn i32 id Argument id Battery index 6 3 4 2 Get iButton Data Description Get one byte data from iButton Syntax getiBtn i32 id u8 data Argument gt 1 Battery index data The memory address to put the iButton data 6 3 4 3 Set iButton Data
67. w 0 0 8V 1 4 3 Digital Outputs There are 4 clamped diode protection digital outputs on GPIO COM connector You control the output status of these digital outputs through the software API The four digital outputs are capable sink maximum 500 mA current for each channel and maximum output voltage is 12V The output reference voltage of device please connect to GPIO VCC12V Pin15 These digital outputs are general purpose outputs The detailed information please refers to Software Programming Guide for how to use the API Following diagrams state how to connect the digital outputs to devices on the embedded system Suggestion Application Circuit PCB Internal Circuit 12V External x MN SIO Circuit I Maximum Sink Current 500mA 48 GPIO Pin Define PIN SIGNAL PIN SIGNAL 1 GPO0 2 GPO1 3 GPO2 4 GPO3 5 GND 6 GND 6 UD UU 11 12 GPI5 0000000001 13 GPI6 14 GPI7 15 VCC12A 4 4 Watchdog Timer If you set a watchdog timer you can use it to reset the system when system hangs up due to hardware issue After you set the watchdog timer the software shall re set the timer to re start a new cycle before it time out Please refer to Chapter 5 Software Installation and Programming Guide for how to set the watchdog timer 4 5 RS 232 Ports There are three RS 232 ports on the AR B6003 The COM1 COMS CO
Download Pdf Manuals
Related Search