XR17C152 Datasheet, PDF(9/62 Page) Exar Corporation – 5V PCI BUS DUAL UART

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XR17C152 Datasheet, PDF (9/62 Pages) Exar Corporation – 5V PCI BUS DUAL UART

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REV. 1.2.0

XR17C152

5V PCI BUS DUAL UART

TABLE 1: PCI LOCAL BUS CONFIGURATION SPACE REGISTERS

ADDRESS BITS

TYPE

DESCRIPTION

RESET VALUE

(HEX)

0x18h 31:0

RO Unimplemented Base Address Register (returns zeros)

0x00000000

0x1C 31:0

RO Unimplemented Base Address Register (returns zeros)

0x00000000

0x20 31:0

RO Unimplemented Base Address Register (returns zeros)

0x00000000

0x24 31:0

RO Unimplemented Base Address Register (returns zeros)

0x00000000

0x28 31:0

RO Reserved

0x00000000

0x2C 31:16

RWR1 Subsystem ID (write from external EEPROM by customer)

0x0000

15:0

RWR1 Subsystem Vendor ID (write from external EEPROM by cus-

tomer)

0x0000

0x30 31:0

RO Expansion ROM Base Address (Unimplemented)

0x00000000

0x34 31:0

RO Reserved (returns zeros)

0x00000000

0x38 31:0

RO Reserved (returns zeros)

0x00000000

0x3C 31:24

RO Unimplemented MAXLAT

0x00

23:16

RO Unimplemented MINGNT

0x00

15:8

RO Interrupt Pin, use INTA#.

0x01

7:0

RWR Interrupt Line.

0xXX

NOTE: RWR1=Read/Write from external EEPROM. RWR=Read/Write from AD[31:0]. RO= Read Only. WO=Write Only.

1.2 Device configuration Register Set

The device configuration registers and a special way to access each of the UARTâs transmit and receive data

FIFOs are accessible directly from the PCI data bus. This provides easy programming of general operating

parameters to the 152 UART and for monitoring the status of various functions. The registers occupy 1K of PCI

bus memory address space. These addresses are offset onto the basic memory address, a value loaded into

the Memory Base Address Register (BAR) in the PCI local bus configuration register set. These registers

control or report on both channel UARTs functions that include interrupt control and status, 16-bit general

purpose timer control and status, multipurpose inputs/outputs control and status, sleep mode control, soft-reset

control, and device identification and revision, and others.

The registers set is mapped into 2 address blocks where each UART channel occupies 512 bytes memory

space for its own 16550 compatible configuration registers. The device configuration and control registers are

embedded inside the UART channel zeroâs address space between 0x0080 to 0x0093. All these registers can

be accessed in 8, 16, 24 or 32 bit width depending on the starting address given by the host at beginning of the

bus cycle. Transmit and receive data may be loaded or unloaded in 8, 16, 24 or 32 bit format to the registerâs

address. Every time a read or write operation is made to the transmit or receive register, its FIFO data pointer

is automatically bumped to the next sequential data location either in byte, word or dword. One special case

applies to the receive data unloading when reading the receive data together with its LSR register content. The

host must read them in 16 or 32 bits format in order to maintain integrity of the data byte with its associated

error tags.

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