Owner's manual

ManualsBrandsAcrosser ManualsComputer AccessoriesACE-MINI

Revision: 1.0

Revision Description Date

1.0 Release 2009/12/29

ACE-Mini

System Guide

Summary of content (109 pages)

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Revision: 1.0 ACE-Mini System Guide Revision 1.
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Revision: 1.0 Contents 1 Introduction to ACE-MINI .........................................................4 1.1 Specifications.................................................................................... 8 1.2 Packing List....................................................................................... 8 1.3 System Dissection ............................................................................ 9 2 Procedures of Assembly/Disassembly ...................................12 2.
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Revision: 1.0 4 Acrosser Intelligent Reel Controller (AR-B2009)....................99 4.1 Structure of Acrosser Intelligent Reel Controller ...................... 100 4.2 AR-B2009 LAYOUT........................................................................ 101 4.3 CONNECTOR S SETTING............................................................. 102 4.4 REEL Control Step........................................................................
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Revision: 1.0 1 Introduction to ACE-MINI ACE-MINI series is a solution for gaming machine system integrators who want to use low cost and flexible MINI-ITX motherboard as the computing platform. ACE-MINI contains a PCI bus gaming I/O control card (ACE-B2019/A), an AC input power supply and a chassis. Any MINI-ITX motherboard with a PCI slot can fit in the ACE-MINI. There are five configurations in ACE-MINI series.
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Revision: 1.0 Features:       Mini-ITX chassis with PCI Gaming I/O card. Is suitable for any Mini-ITX motherboard with PCI slot. Standard 8-liner 72-pin plus 10-pin interface. 30 Digital Inputs, 27 digital outputs, 512KB NVRAM , 4 x 16-bittimers. Chassis intrusion switch. 3 x Serial ports, Intrusion logger, Real Time Clock, Software protection (AR-B2019A).
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Revision: 1.0 1.1 Specifications Item System CPU Board System Dimensions Description ACE-MINI Series AR-B5495(ACE-MINI5495(A)(R) model) 265*254.5*134.5(mm) 1.2 Packing List Description ACE-MINI series Quantity 1 AR-B5495 accessory pack 1 Mounting bracket AC Power cord CD ROM SATA power cable SATA cable 2 1 1 1 1 8 Remark ACE-MINI5495(A)(R) model： 1. COM cable * 2 2. SATA power cable * 1 3. SATA cable * 2 4. IDE cable * 1 5.
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Revision: 1.0 Item Description Quantity 1 TOP COVER 1 2 AR-B2009(ACE-MINI5495R TYPE) 1 3 FAN 1 4 BOTTOM BASE 1 5 HDD BRACKET 1 6 AR-B5495(ACE-MINI5495(A)(R) TYPE) 1 7 MAIN BOARD IO BRACKET 1 8 COM3 1 9 POWER SUPPLY 1 10 POWER CORD HOOK 1 11 SLOT 3.96mm 20PIN 1 12 SLOT 3.
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Revision: 1.0 2 Procedures of Assembly/Disassembly 2.1 Installing the power cable hook 1. Please take out the hook that attached from packing package, and then install it on position below. 2. The good way to install the hook, it should be installed the right side first then left side installing.
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Revision: 1.0 3. Make sure the hook has been installed firmly.
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Revision: 1.0 2.2 Installing the 2.5” Hard Disk Driver (HDD) 1. Unfasten three screws to take off the top cover. 2. Open the top cover following the direction.
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Revision: 1.0 3. Before take off the top cover, please notice to keep away from the ACE-B2019 golden finger. 4. If the system has a reel function (ACE-MINI5495R), please take care of the reel cable connecting.
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Revision: 1.0 5. Release the HDD bracket via unscrewing four screws. 6. Find the HDD screws (M3*5L) from packing packet.
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Revision: 1.0 7. Assemble the HDD in HDD bracket with four screws.(Notice the HDD direction) 8. Connect the SATA cable & power cable to the HDD. (Notice: For ACE-MINI & ACE-MINI-A series, the power supply has no the SATA power connector. Please take the SATA power adapter cable from packing packet. And then connect to power supply first.
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Revision: 1.0 9. Fix the HDD module via four screws. 10. Align the position to place the top cover back.
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Revision: 1.0 11. Push the top cover into the bottom case following the direction below. 12. Close the top cover.
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Revision: 1.0 13. Fasten three screws to fix the top cover.
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Revision: 1.0 2.3 Installing the mainboard procedures Only for ACE-MINI & ACE-MINI-A series. 1. Follow above steps to open the top cover. 2. Unfasten two screws to release ACE-B2019/A.
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Revision: 1.0 3. Take off the ACE-B2019(A) and remove the EPE. . 4. Follow the mainboard installation guide to install mainboard into ACE-MINI case. 5. Close the top cover.
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Revision: 1.0 2.4 Installing the ACE-B2019/A Batteries 1. Please follow above steps to open the top cover of ACE-Mini and take out ACE-B2019/A . 2. Take rechargeable battery cable from the bottom side of ACE-B2019A . (for ACE-B2019A only). 3. Plug rechargeable battery cable into BAT1 rechargeable battery connector (BAT1 connector is on the top side of ACE-B2019A). (for ACE-B2019A only).
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Revision: 1.0 4. Please take out the CR2302 battery that attached from packing package, and then install it into CN3 CR2032 Battery Holder (Place it upper side of the battery upward).
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Revision: 1.0 5. Final, the CR2032 and rechargeable batteries should be placed as below. (ACE-B2019 only has CR2032 battery holder). 6. Install ACE-B2019/A into ACE-Mini and fasten two screws to place ACE-B2019/A, then close top cover.
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Revision: 1.0 3 ACE-B2019/A Series Guide (ACE-B2019, ACE-B2019A) 3.1 Block Diagram Note: ☆ ACE-B2019 has only 256KB SRAM but AR-B2019A has two 512KB SRAMs.
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Revision: 1.0 3.2 ACE-B2019/A H/W Information This section describes the installation of ACE-B2019/A. At first, it shows the function diagram and the layout of ACE-B2019(A). It then describes the unpacking information which you should read carefully, as well as the jumper/switch settings for the ACE-B2019/A configuration. 3.2.1 ACE-B2019/A LAYOUT (Top side) FRUIT1 72-Pin Gold Finger & 20-Pin Gold Finger. JP1 CN4 FPGA Programming Pin Header. U50 U13 AGC (Acrosser Gaming Core). PCI PCI Gold Finger.
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Revision: 1.0 3.2.
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Revision: 1.0 3.3 Connectors and Jumpers Setting 3.3.1 Locations JP6 Bill enable, Coin enable and Hopper sensor pre-set header. JP2 AGA power supply header.* JP11 COM3 can be selected as RS232 serial port or ccTalk2.* SW4 8-bit readable DIP switch. JP10 COM2 can be selected as RS232 serial port or ccTalk1.* U3 i-Button holder.* BAT1 BAT1 is rechargeable battery connector for AGA, RTC, and SRAMB.* ccTalk2 ccTalk connector ( Signal share with COM3).
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Revision: 1.0 3.3.2 Components and Jumps Setting List 1. JP6 Bill enable, Coin enable and Hopper sensor pre-set header. Connection 2. SW4 Intrusion log switch. State description OPEN preset is “Low” 1-2 (BILL) CLOSE OPEN preset is “High” (default) preset is “Low” ON 3-4 (COIN) State CLOSE preset is “High” OFF descri. GND (Low) +3.3V (High) (default) OPEN preset is “Low” CLOSE preset is “High” 5-6 (HOPPER) (default) 3. U3* i-Button holder. 4.
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Revision: 1.0 6. CN1 Case Intrusion Switch Connector. 5. JP3, JP14 SRAM A, SRAM B clear pin header (ACE-B2019 has only 512KB SRAM A and JP3) Connection description normal 1-2 2-3 short (default) clear SRAM 7. CN6* Reel Controller Connector (44pin mini-IDE Reel Connector connects to AR-B2009). Note: GPIO is standard CMOS 3.3V Input/Output.
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Revision: 1.0 9. JP13* Power on-off detect header. State 10. JP2* AGA power supply header. description State enable CLOSE OPEN description Power-On CLOSE (default) disable OPEN (default) Power-Off 11. JP11* 12. JP10* COM3 can be selected as RS232 serial COM2 can be selected as RS232 port or ccTalk2. serial port or ccTalk1.
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Revision: 1.0 13. ccTalk2* ccTalk connector (Signal share with COM3). 14. ccTalk1* ccTalk connector (Signal share with COM2). Pin description Pin description 1 +12V 1 +12V 2 NC 2 NC 3 COM 3 COM 4 DATA 4 DATA 15. COM2* RS232 Serial Port. 16. COM3* RS232 Serial Port (2.0mm 2×5 JST). Pin Discri. Pin Discri. Pin Discri. Pin Discri.
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Revision: 1.0 17. JP9* Selection of COM1 output voltage level as RS232C or TTL. Connection 18. COM1 * RS232 Serial Port. interface 1-2 , 4-5, 7-8, 10-11, 13-14, 16-17, 19-20, 22-23 RS232C output (default) 2-3, 5-6, 8-9, 11-12, 14-15, 17-18, TTL 20-21, output 23-24 35 Pin Discri. Pin Discri.
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Revision: 1.0 3.4 AGC Register Description ACE-B2019 has one 256KB SRAM and AGC I/O ports from A to J. ACE-B2019A has two 512KB SRAM and AGC I/O ports from A to L and port XA, XB, it supports to connect to AR-B2009 for reel control. This chapter descries the function of the register inside the AGC chip. To program the application’s software, users need to know these registers. 3.4.
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Revision: 1.0 Command Register (04h : 05h) Bit Field Software Readable Description Software Writable Value after Reset 0 I/O Space. Value of 1 allows device to respond to I/O space accesses. Yes No 1 1 Memory Space. Value of 1 allows device to respond to memory space accesses Yes No 1 2 Master Enable. Value of 0 disables device from generating bus master accesses. Not Supported Yes No 0 3 Special Cycle. Not Supported. Yes No 0 4 Memory Write/Invalidate. Not Supported.
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Revision: 1.0 Cache Line Size Register (0Ch) Software Readable Bit Field Description 7:0 System Cache Line Size (in units of 32-bit words). Can be written and read; however, the value has no effect on operation of chip. Value after Reset Software Writable Yes No 0 Latency Timer Register (0Dh) Bit Field 15 : 8 Software Readable Description PCI Latency Timer. Not Supported.
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Revision: 1.0 Base Address 1 Register for I/O Accesses to Local Configuration (14h) Software Writable Value after Reset Yes No 1 Reserved Yes No 0 6:2 I/O Base Address. Base address for I/O access to local configuration registers (default 128 bytes). Yes No 0 31 : 7 I/O Base Address. Base address for I/O access to local configuration registers Yes Software Readable Bit Field Description 0 Memory Space Indicator. Value of 0 indicates register maps into Memory space.
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Revision: 1.0 Subsystem Vendor ID Registers (2Ch) Bit Field 15 : 0 Software Writable Value after Reset Yes Yes 00 Software Readable Description Subsystem Vendor ID (Unique add-in board Vendor ID) Subsystem ID Registers (2Eh) Bit Field Description Software Readable Software Writable Value after Reset 31 : 16 Subsystem ID.
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Revision: 1.0 Max Lat Registers (3Fh) Bit Field Description Software Readable Software Writable Value after Reset 31 : 24 Max Lat. Specifies how often the device must gain access to PCI bus. Value is a multiple of 1/4 μs increments. Not Supported.
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Revision: 1.0 3.4.2 SRAM Memory Address Map The following table shows the SRAM Memory Address map (max. 1024 KB) and their offset addresses, relative to the “PCI Base Address 0”. To access SRAM memory, user must use Byte-Access command. Memory Offset Address 00h 32 bit Data width 31 24 23 16 Byte 3 15 8 Byte 2 7 0 Byte 1 Byte 0 Software Readable Software Writable Yes Yes 04h Byte 7 Byte 6 Byte 5 Byte 4 Yes Yes 08h Byte 11 Byte 10 Byte 9 Byte 8 Yes Yes .... .... .... .... ....
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Revision: 1.0 3.4.3 I/O-Interface Address Map The following table shows the I/O Address map, including descriptions and their offset addresses relative to the “PCI Base Address1”.
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Revision: 1.0 4 Port E Interrupt Enable bit. ‘0’ = No support Interrupt from Port E as Input; ‘1’ = Support Interrupt from Port E as Input. Yes Yes 0 5 Port F Interrupt Enable bit. ‘0’ = No support Interrupt from Port F as Input; ‘1’ = Support Interrupt from Port F as Input. Yes Yes 0 6 Port G Interrupt Enable bit. ‘0’ = No support Interrupt from Port G as Input; ‘1’ = Support Interrupt from Port G as Input. Yes Yes 0 7 Port H Interrupt Enable bit.
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Revision: 1.0 Interrupt Source Register (0Ch, 0Dh & 0Eh) Bit Field Software Software Value after Readable Writable Reset Description 0 Interrupt Status in Port A. 0 = No Interrupt, 1 = Interrupt active. To clear this bit, must be wrote any data to Port A as Input. Yes No 0 1 Interrupt Status in Port B. 0 = No Interrupt, 1 = Interrupt active. To clear this bit, must be wrote any data to Port B as Input. Yes No 0 2 Interrupt Status in Port C. 0 = No Interrupt, 1 = Interrupt active.
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Revision: 1.0 Timer-D register. Interrupt Status in Port XA. 0 = No Interrupt, 1 = Interrupt active. 16 Yes No 0 Yes No 0 To clear this bit, must be wrote any data to Port XA as Input. Interrupt Status in Port XB. 0 = No Interrupt, 1 = Interrupt active. 17 To clear this bit, must be wrote any data to Port XB as Input. 18~23 Reserved Note: ACE-B2019 AGC supports I/O ports from port A to port J, it does not supports reel control function.
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Revision: 1.0 Port EFGH Mode (24h) Value Software Bit Field Software Description after Readable Writable Reset Port E (8 bit). 0 = Input Mode, 1 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 = Output Mode Port F (8 bit). 0 = Input Mode, 1 1 = Output Mode 2 Port G (8 bit). 0 = Input Mode, 1 = Output Mode Port H (8 bit).
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Revision: 1.0 Port IJKL Mode (38h) Value Software Bit Field Software Description after Readable Writable Reset Port I (8 bit). 0 = Input Mode, 1 = 0 Yes Yes 1 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 Output Mode Port J (8 bit). 0 = Input Mode, 1 = 1 Output Mode 2 Port K (8 bit). 0 = Input Mode, 1 = Output Mode Port L (8 bit).
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Revision: 1.0 Bit 7 of Port J Yes Yes (only 6 0/1 in Output Mode) Bit 8 of Port J Yes Yes (only 7 0/1 in Output Mode) Note: ACE-B2019 AGC supports I/O ports from port A to port J, it does not supports reel control function. Timer-A Register (4Ch & 4Dh) Bit Field Software Software Value after Readable Writable Reset Description Yes, only if 16 bit Timer-A up to 65536 sec/ms/us.
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Revision: 1.0 Timer-D Register (58h & 59h) Bit Field Software Software Value after Readable Writable Reset Description Yes, only if 16 bit Timer-D up to 1 to 65535 mS. If this register is written, 0 - 15 the Timer-D will count down and if “0” state is reached, it will Yes Timer-D is generate an interrupt. 0 enabled Timer Resolution Register (5Ch) Acrosser default setting register value to be 55H (ms resolution) for using timer-A ~ timer-D.
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Revision: 1.0 REEL Enable Register (71h) Value Software Bit Field Software Description after Readable Writable Reset REEL A Enable bit. 0 = REEL A 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Disable, 1 = REEL A Enable REEL B Enable bit. 0 = REEL B 1 Disable, 1 = REEL B Enable 2 REEL C Enable bit. 0 = REEL C Disable, 1 = REEL C Enable REEL D Enable bit. 0 = REEL D 3 Disable, 1 = REEL D Enable REEL E Enable bit.
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Revision: 1.0 No Interrupt, 1 = Interrupt active Interrupt Status in REEL F. 0 = 5 Yes No 0 No Interrupt, 1 = Interrupt active 6 Reserved 7 Reserved REEL A Status Register (80h) Value Bit Software Software Description after Field Readable Writable Reset REEL enable control mode. 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 Yes Yes 0 0 = Stop Mode, 1 = Run Mode Clockwise/counterclockwise 1 direction control mode.
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Revision: 1.0 interrupt. 0 = Command execute incompletion, 1 = Run Next Command Mode REEL A Feedback Pattern Register (81h & 82h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL A Lamp Register (83h) Software Bit Field Software Description Value after Readable Writable Reset Outer LAMP Common Control. 0 0 = Sourcing Mode, 1 = Sinking Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Mode Inner LAMP Common Control.
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Revision: 1.0 1 = Light in Sourcing Mode; Dark in Sinking Mode, 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP3 Control. 1 = Light in Sourcing Mode; Dark 5 in Sinking Mode, Yes Yes 0 Yes Yes 0 Yes No 0 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP4 Control.
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Revision: 1.0 REEL A Steps Register (88h) Value Software Bit Field Software Description after Readable Writable Reset Reel supports 48 steps stepper 0-7 Yes Yes 0 motor. REEL B Status Register (90h) Value Bit Software Software Description after Field Readable Writable Reset REEL enable control mode. 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Run Mode, 1 = Stop Mode Clockwise/counterclockwise 1 direction control mode.
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Revision: 1.0 origin point Yes Accept command and send Yes interrupt. 7 0 0 = Command execute incompletion, 1 = Run Next Command Mode REEL B Feedback Pattern Register (91h & 92h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL B Lamp Register (93h) Value Software Bit Field Software Description after Readable Writable Reset Outer LAMP Commom Control.
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Revision: 1.0 in Sinking Mode LAMP2 Control. 1 = Light in Sourcing Mode; Dark 4 in Sinking Mode, Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP3 Control. 1 = Light in Sourcing Mode; Dark 5 in Sinking Mode, 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP4 Control.
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Revision: 1.0 REEL B Steps Register (98h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL C Status Register (A0h) Value Bit Software Software Description after Field Readable Writable Reset REEL enable control mode. 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 Yes Yes 0 0 = Run Mode, 1 = Stop Mode Clockwise/counterclockwise 1 direction control mode.
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Revision: 1.0 interrupt. 0 = Command execute incompletion, 1 = Run Next Command Mode REEL C Feedback Pattern Register (A1h & A2h ) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL C Lamp Register (A3h) Software Bit Field Software Description Value after Readable Writable Reset Outer LAMP Common Control. 0 0 = Sourcing Mode, 1 = Sinking Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Mode Inner LAMP Common Control.
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Revision: 1.0 1 = Light in Sourcing Mode; Dark in Sinking Mode, 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP3 Control. 1 = Light in Sourcing Mode; Dark 5 in Sinking Mode, Yes Yes 0 Yes Yes 0 Yes No 0 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP4 Control.
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Revision: 1.0 REEL C Steps Register (A8h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL D Status Register (B0h) Value Bit Software Software Description after Field Readable Writable Reset REEL enable control mode. 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Run Mode, 1 = Stop Mode Clockwise/counterclockwise 1 direction control mode.
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Revision: 1.0 Yes Accept command and send Yes interrupt. 7 0 0 = Command execute incompletion, 1 = Run Next Command Mode REEL D Feedback Pattern Register (B1h & B2h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL D Lamp Register (B3h) Value Software Bit Field Software Description after Readable Writable Reset Outer LAMP Common Control.
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Revision: 1.0 LAMP2 Control. 1 = Light in Sourcing Mode; Dark 4 in Sinking Mode, Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP3 Control. 1 = Light in Sourcing Mode; Dark 5 in Sinking Mode, 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP4 Control.
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Revision: 1.0 REEL D Steps Register (B8h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL E Status Register (C0h) Value Bit Software Software Description after Field Readable Writable Reset REEL enable control mode. 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Run Mode, 1 = Stop Mode Clockwise/counterclockwise 1 direction control mode.
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Revision: 1.0 Yes Accept command and send Yes interrupt. 7 0 0 = Command execute incompletion, 1 = Run Next Command Mode REEL E Feedback Pattern Register (C1h & C2h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL E Lamp Register (C3h) Value Software Bit Field Software Description after Readable Writable Reset Outer LAMP Common Control.
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Revision: 1.0 LAMP2 Control. 1 = Light in Sourcing Mode; Dark 4 in Sinking Mode, Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP3 Control. 1 = Light in Sourcing Mode; Dark 5 in Sinking Mode, 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP4 Control.
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Revision: 1.0 REEL E Steps Register (C8h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL F Status Register (D0h) Value Bit Software Software Description after Field Readable Writable Reset REEL enable control mode. 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Run Mode, 1 = Stop Mode Clockwise/counterclockwise 1 direction control mode.
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Revision: 1.0 Yes Accept command and send Yes interrupt. 7 0 0 = Command execute incompletion, 1 = Run Next Command Mode REEL F Feedback Pattern Register (D1h & D2h) Value Software Bit Field Software Description after Readable Writable Reset 0 - 15 Yes Yes 0 REEL F Lamp Register (D3h) Value Software Bit Field Software Description after Readable Writable Reset Outer LAMP Common Control.
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Revision: 1.0 LAMP2 Control. 1 = Light in Sourcing Mode; Dark 4 in Sinking Mode, Yes Yes 0 Yes Yes 0 Yes Yes 0 Yes No 0 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP3 Control. 1 = Light in Sourcing Mode; Dark 5 in Sinking Mode, 0 = Dark in Sourcing Mode; Light in Sinking Mode LAMP4 Control.
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Revision: 1.0 3.6 OXUPCI954 Drive Installation Guide When you install the OXuPCI954 UART Controller Driver in ACE-B2019A, the driver’s installation sequence must follow this guide. If the COM ports sequences define that you want to set as the same as hardware define. You shall need to install “PCI Serial Port” driver (step1 ～step13). If you want to adjust the COM port properties, you can follow step14～step17 to adjust the COM port properties. Installation Steps： 1.
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Revision: 1.0 2. When “System Properties” appear on screen, select “Hardware” item. 3.
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Revision: 1.0 ? PCI Serial Port” device in system devices list. 4. Select “? ? PCI Serial Port” icon, then screen will shows the 5. Click the right button of mouse on “? function list then selects the “Properties” function.
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Revision: 1.0 ? PCI Serial Port” Properties appear on screen, select “Reinstall Driver” item. 6. When “? 7. After driver install screen appear, select “Yes, this time only” then select “Next”.
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Revision: 1.0 8. Select “Install from a list or specific location (Advanced)” then select “Next”. 9. Select “Search for the best driver in these locations” then select “Include this location in the search”. Select “Browse” for the file path of driver location then select “Next”.
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Revision: 1.0 10. Select the file path of driver location then select “OK”. 11. Select “Next” to install driver.
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Revision: 1.0 12. Driver files start to copy and install. 13. When the driver finish the installation of the “PCI Serial Port”, select “Finish”.
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Revision: 1.0 14. If you want adjust the COM port setting, click the right button of mouse on the COM port icon. 15. Select the “Properties” function.
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Revision: 1.0 16. When the COM Port icon Properties appear on screen, select “Settings” item. 17. When the properties of the COM Port icon appear on screen, select the item which you want to change, such as the sequence of the COM Port, if you setup the COM Port finish, select “OK”, the setting will be changed.
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Revision: 1.0 3.7 Electrical Characteristics 3.7.1 Basic Electrical Characteristics Electrical Characteristics Symbol Parameter / Condition Value Min. Type Unit Max. Vth I.IH Isolation input voltage high level threshold 3.6 5 12 V Vth I.IL Isolation input voltage low level threshold - 0 0.8 V Vin O.D Open drain input Voltage - - 12.6 V Isink1 O.D Open drain sink current - - 500 mA Isink2 O.D Open-Drain sink current (Tower Lamp) - - 1.0 A Vth S.
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Revision: 1.0 3.7.2 72-PIN Golden Finger      I: Spare I/O Input O: Spare I/O Output I/O: Spare Input/Output I.I: Isolated Input O.D: Open Drain Output Component Side I/O Port/Bit Function Solder Side Pin Function N.C. 1 N.C. N.C. 2 N.C. N.C. 3 N.C. Port/Bit I/O I.I B0 Button 1 4 N.C. I.I B1 Button 2 5 N.C. I.I B2 Button 3 6 Door SW2 A1 I I.I B3 Button 4 7 Door SW3 A2 I I.I B4 Button 5 8 Door SW4 A3 I I.I B5 Button 6 9 Door SW5 A4 I I.
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Revision: 1.0 (500mA) O.D. H3 Pay-Out Meter 27 Lamp15 (500mA) G6 O.D. 28 Lamp16 (500mA) G7 O.D. (500mA) O.D. H4 Key-Out Meter (500mA) O.D. F0 Lamp1 (500mA) 29 Lamp7 (500mA) F6 O.D. O.D. F1 Lamp2 (500mA) 30 Lamp8 (500mA) F7 O.D. O.D. F2 Lamp3 (500mA) 31 Lamp9 (500mA) G0 O.D. O.D. F3 Lamp4 (500mA) 32 Lamp10 (500mA) G1 O.D. O.D. F4 Lamp5 (500mA) 33 Lamp11 (500mA) G2 O.D. O.D. F5 Tower Lamp6 (1000mA) 34 Tower Lamp12 (1000mA) G3 O.D.
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Revision: 1.0 35 FB_E REEL E feedback signal XB0 36 FB_F REEL F feedback signal XB1 37 +3.3V 38 +3.3V 39 GND 40 GND 41 GND 42 GND 43 LATCH_OE# Latch output Enable PORTK_DIR 44 N.
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Revision: 1.0 3.7.4 AGC Port Assignment Port/Bit I/O 72-pin Remark A0 I Door SW1 Also connect to AGA intrusion bit 0 A1 I Door SW2 Also connect to AGA intrusion bit 1 A2 I Door SW3 Also connect to AGA intrusion bit 2 A3 I Door SW4 Also connect to AGA intrusion bit 3 A4 I Door SW5 Also connect to AGA intrusion bit 4 A5 I A6 I A7 I B0 I.I Button 1 B1 I.I Button 2 B2 I.I Button 3 B3 I.I Button 4 B4 I.I Button 5 B5 I.I Button 6 B6 I.I Button 7 B7 I.
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Revision: 1.0 E1 I.I Coin-In Signal B E2 I.I Bill-In E3 I.I Hopper Sensor E6 I..I Coin enable feedback E7 I.I Bill enable feedback F0 O.C. Lamp1 F1 O.C. Lamp2 F2 O.C. Lamp3 F3 O.C. Lamp4 F4 O.C. Lamp5 F5 O.C. Lamp6 F6 O.C. Lamp7 F7 O.C. Lamp8 G0 O.C. Lamp9 G1 O.C. Lamp10 G2 O.C. Lamp11 G3 O.C. Lamp12 G4 O.C. Lamp13 G5 O.C. Lamp14 G6 O.C. Lamp15 G7 O.C. Lamp16 H0 O.C. Key-In Meter H1 O.C. Bill-In Meter H2 O.C. Coin-In Meter H3 O.C.
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Revision: 1.0 XB3 I/O Reel Control Note: ACE-B2019 AGC supports I/O ports from port A to port J, it does not supports reel control function.
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Revision: 1.0 3.7.5 NOTES (72-PIN Gold Finger I/O) 1. I.I (Isolated-Input) external connection application note. Suggestion Application Circuit PCB Internal Circuit AGC 2. I and I.P.H (Input and Internal Pull-High) external connection application note.
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Revision: 1.0 3. O.D (Open-Drain) output external connection application note. 4. Spare IO (Spare Input/Output) external connection application note.
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Revision: 1.0 4 Acrosser Intelligent Reel Controller (AR-B2009) This chapter's primary role is to distribute all of the best-known methods relating to the design of an AGC (Acrosser Game Core) based reel controller. It provides implementation details specific to Acrosser Intelligent Reel Controller Guide. The details of this document are requirements for Acrosser Intelligent Reel Controller, unless the text explicitly states that a design rule or connection is optional.
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Revision: 1.0 4.
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Revision: 1.0 4.3 CONNECTOR S SETTING 1. Motor Power Input Connector(MOTOR_EXT1) 2. Lamp Power Input Connector(LAMP_EXT1) PIN Description PIN Description 1 GND 1 GND 2 GND 2 GND 3 +12V 3 +12V 4 +12V 4 +12V 3. Reel Motor Connector(REEL2~REEL4) See Table 4.3.
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Revision: 1.0 4. AGC REEL Connector(CN1) Pin Function AGC Pin AGC Pin Name Describe Pin Name Port Port Motor Driver to 1 MDAP Latched REEL E data to K0 23 LATCH_E Phase A+ MDAN XA0 buffer Motor Driver to 2 Function Describe Latched REEL F data to K1 24 LATCH_F Phase A- XA1 buffer Motor Driver to 3 MDBP K2 25 N.C K3 26 N.
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Revision: 1.0 Table 4.3.1: .
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Revision: 1.0 4.4 REEL Control Step Notes 1.
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Revision: 1.0 2. HCO-AEP: High Current Driver with Anti- protect 3.
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Revision: 1.0 4.