Solid State Logic AR-B7041 manual Verify Memory, Program Memory, Memory Type/Mfr, Select PGM Chips

Page 10

AR-B7041 User¡¦s Guide

Verify Memory

If ROM pattern files were loaded without error, this option instructs PGM7041 to verify the contents of (FLASH) memory chips with the current ROM pattern files.

Program Memory

If there are no mistakes in your ROM pattern file, then this menu option will erase (FLASH) memory, write the current ROM pattern files onto (FLASH) memory and verify data that was just written to (FLASH) memory, using the ROM pattern files.

Memory Type/Mfr.

Before you program the (FLASH) memory chips, make sure that the FLASH’ s type and manufactory match the one shown on the main menu. Otherwise, you can use this option to select the proper type and manufacture and instruct the program to use a right programming algorithm.

Select PGM Chips

Normally the PGM7041 will program all ROM pattern files onto the FLASH memories with the ROM pattern files just loaded. But you can use this option to select which memory chips that you want to program and which memory chips need to be skipped. The PGM7041 will only program the selected chips when writing data to the FLASH memory. This is very useful when some of the memory chip were verified and programmed previously.

Select FLASH PLSCNTs

If the 12V FLASHs have been programmed several times, please select the <Slowest> FLASH PLSCNT mode instead of <Standard> mode. In the <Slower> or <Slowest> mode, PGM7041.EXE will retry more times to program data onto the 12V FLASHs correctly. The default setting is <Slowest> mode.

Move the reverse video bar to the “Program Memory” option then press ENTER. PGM7041 will write the ROM pattern files onto the (FLASH) memories. Ensure that data is verified by the PGM7041 correctly.

(B) SWAP41.EXE

SWAP41.EXE This program demonstrates how to reassigns your AR-B7041 card to the drive unit set by SW1-5, SW1-6 and SW1-7. This file should be executed in the first line of your <AUTOEXEC.BAT> file.

(C) AUTOEXEC.BAT

AUTOEXEC.BAT This is a sample batch file to illustrate how to create an <AUTOEXECT.BAT> file, if you are planning to use the AR-B7041 as a boot drive.

(D) RFG.EXE

RFG.EXE This program is used to generate ROM pattern files in a binary format. Each ROM pattern file has the same size as the FLASH or EPROM and can be easily programmed on to the FLASH with on-board programmer or on to EPROM with any EPROM programmer. If you have specified a DOS drive in the *.PGF file, RFG will generate bootable ROM pattern files for the EPROM or FLASH disk. The RFG supports the following DOS: MS-DOS, PC-DOS, DR-DOS, and X-DOS.

NOTE: If you want to use AR-B7041 with any DOS which is not supported by RFG, please send your requirement to Acrosser Technology Co., Ltd. or contract with your local sales representative.

The RFG.EXE provided in the utility diskette is a program that converts the files you list in the PGF and convert them into ROM pattern file. The RFG will determine how many EPROMs are needed and generate the same number of ROM pattern files. These ROM pattern files are named with the name assigned by the ROM_NAME in the PGF and the extension names are *.R01, *.R02 … .etc. To generate ROM pattern files.

The ROM File Generator main menu will be displayed on the screen. There are 7 options on the main menu. They serve the following functions:

2-2

Image 10
Contents 8MB/4MB Solid State Disk Page Table of Contents Preface Static Electricity Precautions OrganizationPage Overview IntroductionFeatures Packing ListOverview InstallationUtility Diskette SSD Utility Memory Type/Mfr Verify MemoryProgram Memory Select PGM ChipsType Current PGF File Display Error in PGF FileLoad PFG File Generate ROM FilesSoftware Write Protect Write Protect FunctionHardware Write Protect WD7041.EXEDisable the Software Write Protect Enable the Software Write ProtectWatchdog Timer Watchdog Timer Enabled Watchdog Timer SettingWatchdog Setting Reset Signal Output of Watchdog Timer J1Watchdog Timer Trigger Watchdog Timer DisabledPage Solid State Disk EpromSwitch Setting OverviewSSD Firmware Address Select SW1-3 & SW1-4 2 I/O Port Address Select SW1-1 & SW1-2SSD Drive Number SW1-5, SW1-6 & SW1-7 SW1-5 SW1-6 SW1-7 Occupies floppy disk number Simulate 2 Disk DriveSSD Drive Number for Simulate 2 Disk Drive Write Protected Select SW1-10 ROM Type Select SW1-8 & SW1-9Disk Drive Name Arrangement Jumper Setting Memory Type Setting M1 ~ M4 & JP1JP1 Piggy-Back Connector CN1 Bus ConnectorXT-Bus BUS1 ROM Disk Installation Battery SettingUV Eprom 27Cxxx UV Eprom 27CXXX Switch Setting Software Programming11 5V Large Flash 29FXXX Switch Setting Large Page 5V Flash Disk13 5V Flash 29CXXX & 28EEXXX Switch Setting Small Page 5V Flash ROM DiskUsing Tool Program Typing DOS Command15 Sram Jumper Setting RAM DiskCombination of ROM and RAM Disk AR-B7017Battery Output Connector JP5 Memory Type Setting JP1 ~ JP4External Battery Connector JP6 Piggy-Back Connector CN1 External Battery Supplied for Sram Data Storage JP7Page Specifications & SSD Types Supported Accepts 5V Flash InstallationAccepts Eprom Accepts SramSSD Types Supported Mitsubishi Register Port Using Memory BanksMemory Banks & Index MemoryExpanding the AR-B7041’ S Memory Capacity First Second AR-B7041 AR-B7017 Pattern Socket Name Card of Sockets Located NumberChip Number Socket Name Card of Sockets Located AR-B7017 IndexAR-B7041 Name FunctionPage Placement & Dimensions PlacementCN1 Dimensions for AR-B7041

AR-B7041 specifications

The Solid State Logic AR-B7041 is a groundbreaking audio production console that epitomizes the integration of advanced technology with traditional analog warmth. Designed for both studio and live applications, the AR-B7041 stands as a testament to Solid State Logic’s commitment to quality and innovation in audio engineering.

At the heart of the AR-B7041 is its exceptional analog signal path, which ensures that every audio source is captured and processed with remarkable fidelity. The console features high-performance mic preamps, known for their low noise floor and exceptional headroom. This allows engineers to achieve clarity and detail, making it suitable for a wide range of applications, from recording studios to live sound reinforcement.

One of the standout features of the AR-B7041 is its extensive routing capabilities. With multiple bus configurations and flexible patching options, users can customize their workflow to fit their unique production styles. This versatility is further enhanced by the integrated digital connectivity, allowing seamless integration with digital audio workstations (DAWs) and other digital equipment. The dual-functionality of analog and digital processes makes it a perfect fit for modern hybrid studios.

The interface of the AR-B7041 is designed with user-friendliness in mind, offering an intuitive layout that allows for quick adjustments and easy navigation. The console includes an array of user-definable buttons and faders, providing engineers the ability to create personalized setups that streamline their workflow. Moreover, the built-in monitoring capabilities ensure accurate audio assessment, critical for achieving the best sonic results.

Incorporating advanced technologies like dynamic EQ and multi-effects processing, the AR-B7041 caters to the evolving demands of audio engineering. These features not only enhance sound shaping but also save valuable studio time by allowing engineers to achieve polished sounds in real time.

Durability and reliability are hallmarks of the Solid State Logic brand, and the AR-B7041 is no exception. Constructed with high-quality materials, it is designed to withstand the rigors of daily studio or live performance usage, ensuring longevity without compromising performance.

In summary, the Solid State Logic AR-B7041 is a versatile and sophisticated audio production console that combines traditional analog characteristics with modern technological advancements. Its impressive features, robust routing capabilities, and user-friendly design make it an essential tool for audio professionals seeking both flexibility and excellence in sound quality.