NI5210 10BT, LEO28-C

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NI5210 10BT, LEO28-C

NIC Type	Ethernet
Transfer Rate	10Mbps
Data Bus	8-bit ISA
Topology	Star
Wiring Type	Unshielded twisted pair
Boot ROM	Available

DIAGNOSTIC LED(S)
LED	Status	Condition
LED1	On	Network connection good
LED1	Off	Network connection is broken
LED1	Blinking	Data is being received

INTERRUPT SETTINGS
IRQ		W2	W3	W4	W5	W6	W7
»	2	Closed	Open	Open	Open	Open	Open
	3	Open	Closed	Open	Open	Open	Open
	4	Open	Open	Closed	Open	Open	Open
	5	Open	Open	Open	Closed	Open	Open
	6	Open	Open	Open	Open	Closed	Open
	7	Open	Open	Open	Open	Open	Closed

OPTIONAL CHIP SELECTION
Type		W9	W10
»	None	Pins 1 & 2 closed	Pins 1 & 2 closed
	8KB RAM chip	Pins 2 & 3 closed	Pins 2 & 3 closed
	Boot ROM	Pins 2 & 3 closed	Pins 1 & 2 closed
Note:This card can use either a 8KB RAM chip or a boot ROM in the boot ROM socket, but not both.

BASE MEMORY ADDRESS
Address		W11	W12	W13	W14
»	C0000h	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 2 & 3 closed
	C4000h	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 1 & 2 closed
	C8000h	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 2 & 3 closed
	CC000h	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 1 & 2 closed
	D0000h	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 2 & 3 closed	Pins 2 & 3 closed
	D4000h	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 2 & 3 closed	Pins 1 & 2 closed
	D8000h	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 1 & 2 closed	Pins 2 & 3 closed
	DC000h	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 1 & 2 closed	Pins 1 & 2 closed
	E0000h	Pins 1 & 2 closed	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 2 & 3 closed
	E4000h	Pins 1 & 2 closed	Pins 2 & 3 closed	Pins 2 & 3 closed	Pins 1 & 2 closed
	E8000h	Pins 1 & 2 closed	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 2 & 3 closed
	EC000h	Pins 1 & 2 closed	Pins 2 & 3 closed	Pins 1 & 2 closed	Pins 1 & 2 closed

I/O BASE ADDRESS
Address		W15	W16	W17	W18	W19	W20
	200h	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3
	208h	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 1 & 2
	210h	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 1 & 2	Pins 2 & 3
	218h	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 1 & 2	Pins 1 & 2
	350h	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 2 & 3
	358h	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 1 & 2
»	360h	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 1 & 2	Pins 2 & 3	Pins 2 & 3
	368h	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2
	370h	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 2 & 3
	3E0h	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 2 & 3	Pins 2 & 3
	3E8h	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2
	3F0h	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 2 & 3
	3F8h	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2	Pins 1 & 2
Note: Pins designated should be in the closed position. A full range of I/O addresses are available, in increments of 8h, from 200h to 3F8h for a total of 64 addresses. The 12 examples given are taken from the beginning (first four), the middle (middle four), and the end (last four) of the 64 addresses. To figure out the correct configuration for the I/O address you wish to use, subtract 200h from the address, divide the remainder by 08h, and convert the quotient to a 6-digit binary number. The binary number will represent the setting of each jumper. Each 0 represents pins 2 & 3 closed while each 1 represents pins 1 & 2 closed. W20G is the most significant bit (MSB) and W20L is the least significant bit (LSB). For example, If the desired address is 228h; 228h-200h=28h; 28h/08h=05h; 05h=000101b, and the setting should be:
	Address	W20G	W20H	W20I	W20J	W20K	W20L
	228h	Pins 2 & 3	Pins 2 & 3	Pins 2 & 3	Pins 1 & 2	Pins 2 & 3	Pins 1 & 2