XR17V352IB-0A-EVB Exar Corporation, XR17V352IB-0A-EVB Datasheet - Page 8

XR17V352IB-0A-EVB

Manufacturer Part Number

XR17V352IB-0A-EVB

Description

EVAL BOARD FOR XR17V352 113BGA

Manufacturer

Exar Corporation

Datasheets

1.XR17V352IB113-F.pdf (64 pages)

2.XR17V352IB-0A-EVB.pdf (2 pages)

Specifications of XR17V352IB-0A-EVB

Main Purpose

Interface, UART

Embedded

Utilized Ic / Part

XR17V352

Primary Attributes

Secondary Attributes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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XR17V352

HIGH PERFORMANCE DUAL PCI EXPRESS UART

The XR17V352 UART register set is very similar to the previous generation PCI UARTs. This makes the V352

software compatible with the previous generation PCI UARTs. Minimal changes are needed to the software

driver of an existing Exar PCI UART driver so that it can be used with the V352 PCIe UART.

There are three different sets of registers as shown in

Registers is needed for plug-and-play auto-configuration. This auto-configuration feature makes installation

very easy into a PCI system and it is part of the PCI local bus specification. The second register set is the

Device Configuration Registers that are also accessible directly from the PCI bus for programming general

operating conditions of the device and monitoring the status of various functions common to both channels.

These functions include both channel UARTs’ interrupt control and status, 16-bit general purpose timer control

and status, multipurpose inputs/outputs control and status, sleep mode, soft-reset, and device identification

and revision. And lastly, each UART channel has its own set of internal UART Configuration Registers for its

own operation control and status reporting. Both sets of channel registers are embedded inside the device

configuration registers space, which provides faster access. The second and third set of registers are mapped

into 2K of the PCI bus memory address space. The following paragraphs describe all 3 sets of registers in

detail.

The PCI local bus configuration space registers are responsible for setting up the device’s operating

environment in the PCI local bus. The pre-defined operating parameters of the device is read by the PCI bus

plug-and-play auto-configuration manager in the operating system. After the PCI bus has collected all data

from every device/card on the bus, it defines and downloads the memory mapping information to each device/

card about their individual operation memory address location and conditions. The operating memory mapped

address location is downloaded into the Base Address Register (BAR) register, located at an address offset of

0x10 in the configuration space. Custom modification of certain registers is possible by using an external

93C46 EEPROM. The EEPROM contains the device vendor and sub-vendor data, along with 6 other words of

information (see

1.0 XR17V352 INTERNAL REGISTERS

1.1

IGURE

Device Configuration and

Registers are mapped on

byte of memory address

UART[1:0] Configuration

to the Base Address

3. T

PCI LOCAL BUS CONFIGURATION SPACE REGISTERS

Interface

PCIe

space

XR17V352 R

“Section 1.2, EEPROM Interface” on page

EGISTER

ETS

Device Configuration Registers

registers + enhanced registers

Channel 0 TX FIFO, RX FIFO,

registers + enhanced registers

Channel 1 TX FIFO, RX FIFO,

Channel 0 16550 compatible

Channel 1 16550 compatible

RX FIFO + Status Burst Reg

Configuration Space

Registers for Plug-

and-Play Auto

PCI Local Bus

Configuration

Figure

12) required by the auto-configuration setup.

3. The PCI Local Bus Configuration Space

0x07FF

0x0000

0x0080

0x0100

0x0400

Vendor and Sub-vendor ID

and Product Model Number

in External EEPROM

REV. 1.0.1

XR17V352IB-0A-EVB Exar Corporation, XR17V352IB-0A-EVB Datasheet - Page 8

XR17V352IB-0A-EVB

Specifications of XR17V352IB-0A-EVB

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