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B59
User Manual
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Flytech B59 User Manual

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USER’S MANUAL
B59 MAIN BOARD
482B5901
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INDEX
This user’s manual describes the jumper setting of B59 Main Board. For detailed technical information, please refer to CDs attached with PC system unit.
Table of Contents Page
Technical details
1. Jumpers location diagram for B59 main board 1
2. Memory configuration 2
3. Jumper setting 3 – 7
All other registered and unregistered trademarks are trademarks of their respective holders
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1.Jumper Location Diagram for "B59 V1.X " Pentium main board
CN1
J4 J6 J10 J18 J21 J23
J1
1
655
6
JP15
JP16
1
1
2
2
CN3 CN5CN10
2 1
1 3 1 3
1 3 41
CN11
CN12
8
81
JP5 JP6
2
6
1
5
102
2 40
J7
9
1 1
2 10
2
J8
1
9
1 39
JP7
2
1 1
563
JP8
3
1
J11
J12 J20
JP10 J13
2
8
1
7
J14
25
39
26
40
33 34
CN2 CN7 IR
PCI SLOT
JP3
J19
VT82C686A
U19
1
1
JP11
2
3
1
2
PCI SLOT
JP1
JP2
CN4
CN14
J16
2
CN13
1
3
JP9
1
1
2
DOC
U26
JP12
3
4
1
2 6
5
2
1
JP13
U20
VT8501
168-PIN DIMM RAM SOCKET-DIMM
168-PIN DIMM RAM SOCKET-DIMM
8 7
J22
JP14
1
CN9
6
J17J15
9
10
J5
1
2
BAT1
JP4
216
5
9
10
1
2
U10
CPU
16
2 1
2
1
16
CN6
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2. Memory configuration for “B59 V1.X” main board
l System Memory Configuration
Capacity DIMM 1 DIMM 2 16MB 32MB 32MB 64MB 64MB 80MB 80MB 128MB 128MB 256MB
16MB None 16MB 16MB 32MB None 32MB 32MB 64MB None 16MB 64MB 64MB 16MB 64MB 64MB 128MB None 128MB 128MB
l External Cache RAM Configuration.
Capacity SDRAM
Quantity Location
Type 256KB 512KB
32k x 64 1pcs U15 64k x 64 1pcs U15
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3. Jumper Setting
In order to set up the correct configuration, here is the description about how to set the jumpers to enable/disable or change functions. All jumpers location please refer to jumper location diagram.
l CPU type selection :J4, J10
JP4 JP10CPU
1-2 3-4 5-6 1-2 3-4 5-6 7-8 Pentium 100MHz Open Open Open Close Open Open Open Pentium 120MHz Close Open Open Open Open Open Open Pentium 133MHz Close Open Open Close Open Open Open Pentium 150MHz Close Close Open Open Open Open Open Pentium 166MHz Close Close Open Close Open Open Open IDT C6 180MHz Open Close Open Open Open Open Open IDT C6 200MHz Open Close Open Close Open Open Open Pentium 200MHz MMX Open Close Open Close Open Open Open Pentium 233MHz MMX Open Open Open Close Open Open Open AMD K6/233MHz(AFR) Open Open Open Close Open Open Open AMD K6/266MHz(AFR) AMD K6-2/266MHz AMD K6-2/300MHz Open Close Open Close Close Close Open AMD K6-2/350MHz Open Open Open Close Close Close Open AMD K6-2/400MHz AMD K6-3/400MHz AMD K6-3/450MHz AMD K6 -2/450MHZ AMD K6-2/500MHZ AMD-K6-3/500MHZ
Close Open Close Close Open Open Open
Close Open Close Close Close Close Open
Close Close Close Close Close Close Open
Open Close Close Close Close Close Open
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l CPU Voltage selection :
JP2Vcore
1-2 3-4 5-6 7-8 9-10
1.5 Open Open Close Open Close
1.6 Open Close Close Open Close
1.7 Open Open Open Close Close
1.8 Open Close Open Close Close
1.9 Open Open Close Close Close
2.0 Open Close Close Close Close
2.1 Close Open Open Open Open
2.2 Open Close Open Open Open
2.3 Close Close Open Open Open
2.4 Open Open Close Open Open
2.5 Close Open Close Open open
2.6 Open Close Close Open Open
2.7 Close Close Close Open Open
2.8 Open Open Open Close Open
2.9 Close Open Open Close Open
3.0 Open Close Open Close Open
3.1 Close Close Open Close Open
3.2 Open Open Close Close Open
3.3 Close Open Close Close Open
3.4 Open Close Close Close Open
3.5 Close Close Close Close Open
l CMOS data clean function : JP9
CMOS data JP9
Clean 2-3 Normal (default) 1-2
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l Disk On Chip address selection: JP12, JP13
Address JP12 JP13
0CC00H – 0CDFFH
1-2 1-2 0D000H – 0D1FFH 1-2 3-4 0D400H – 0D5FFH 3-4 3-4 0D800H – 0D9FFH 1-2 5-6 0DC00H – 0DDFFH 3-4 5-6
l RS232 Select Jumper :JP5,JP6,JP15,JP16
RS232 Select JP5,JP6,JP15,JP16
Normal (default) 1-2 RS232 pin1 use +5V 3-4 RS232 pin1 use +12V 5-6
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=
GND
OUT3
OUT1
OUT2
OUT0
VDC+12V
Digital I/O (4 Output & 4 Input) : J5 This main board provide the basic digital I/O signal controller, user can develop the program and extra controller to open and sense of the cash drawer based on the digital I/O function on this main board.
PIN ASSIGNMENT 1 GND 6 Out 1 2 VDC +12V 7 IN 2 3 IN 0 8 Out 2 4 Out 0 9 IN 3 5 IN 1 10 Out 3
IN3 IN2
9
IN1
IN0
3
5
7
1
8
10
6
2
4
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ν Digital output programming The output is TTL Level. The output signal must be TTL compatible.
Output Address Bit Out 0 206 0 Out 1 206 1 Out 2 206 2 Out 3 206 3 Example : ( “0” = off “1” =on )
Data 00 = Out 0 and Out 1 = “0” Data 01 = Out 0 = “1” Data 02 = Out 1 = “1” Data 03 = Out 0 and Out 1 = “1”
ν Digital input programming
The input signal must be TTL compatible.
In
Address Bit put IN 0 206 0 IN 1 206 1 IN 2 206 2 IN 3 206 3 Example : If input 206 is [ 0111], then input 3 is “0”, If input 206 is [0011], then input 3 & 4 are “0”
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