COREU1LL-AR【PDF 4/8 页】IP MODULE COREU1LL

您好，
买卖IC网欢迎您。
请登录
免费注册

Sheet目录1203

1页 2页 3页 [4页]5页 6页 7页 8页

CoreU1LL UTOPIA Level 1 Link-Layer Interface

"write" interface. Conversely, the CoreU1LL accepts a

standard 54-byte cell at the user "read" interface and

drops the sixth byte during the transfer to the egress (Tx)

interface. If xlate is high, no translation is performed; 54-

byte cells are transferred on all interfaces.

The user interface is divided into write (Rx) and read (Tx)

interfaces. The control signals and data for the write

interface are associated with the u1_rx_clk, while control

signals and data for the read interface are associated

with the u1_tx_clk.

Each interface is controlled from the user logic by the

w_avail and r_avail signals, respectively.

When the cell buffer or user logic is ready to receive or

send a cell on either interface, the user must assert

x_avail high. In turn, this causes the CoreU1LL to assert

u1_x_en to the PHY-Layer device provided that u1_x_clav

is asserted (high).

Write Interface

Whenever the CoreU1LL asserts u1_rx_en low, the

w_phy_act signal is asserted high to indicate that the

ingress user interface is active. The w_enable signal will

remain low until the link-layer begins to transfer a cell.

Since the CoreU1LL translates from 8-bit data at the

(u1_rx_clav is high) and user logic is able to accept

another cell (w_avail remains high), the w_phy_act signal

remains active (high), and the CoreU1LL block accepts a

back-to-back cell from the PHY-Layer device. The

CoreU1LL will wait for the PHY-Layer to assert u1_rx_soc

and then begins asserting w_enable during each valid

data word and incrementing w_adr ( Figure 8 ).

Read Interface (Egress)

When r_avail is asserted high at the user interface and

the u1_tx_en signal is asserted low by the CoreU1LL, the

CoreU1LL begins accepting data on the user interface.

Once a cell transfer has begun, the CoreU1LL transfers 27

words of data regardless of the state of r_avail. The

CoreU1LL asserts r_buf_en high, expecting to accept data

at the r_data inputs on the next rising-edge of u1_tx_clk,

as illustrated in Figure 9 on page 4 .

u1_tx_cl

u1_tx_cla

u1_tx_en

u1_tx_soc

UTOPIA interface to 16-bit data at the user interface,

w_enable is asserted for one clock cycle while a data

u1_tx_data

XX

H1

H2

H3

H4

H5

P1

P2

word is valid. W_adr is incremented on the next rising-

edge of u1_rx_clk, and then w_enable is deasserted for

one clock cycle (except during insertion of the UDF2

byte, as shown in Figure 8 ). W_adr increments from 00 to

1B hex (27 words).

r_buf_en

r_adr

r_data

00

XX

01

H1H2

02

H3H4

03

H5H6

04

P1P2

Figure 9 ? Read Interface Cell Transfer

u1_rx_clk

u1_rx_clav

u1_rx_en

u1_rx_soc

The CoreU1LL provides r_adr as a word count (00 to 1B

hex) and increments whenever the core accepts data at

the r_data pins. Since the CoreU1LL translates from 16-

bit data at the user interface to 8-bit data at the UTOPIA

interface, r_buf_en is asserted for one clock cycle. Data is

u1_rx_data

w_phy_act

XX

H1 H2

H3 H4

H5

P1

P2

P3

accepted on the following rising edge of u1_tx_clk, and

the r_adr is incremented.

Then r_buf_en is deasserted for one clock cycle, except

w_enable

after the third data word when xlate is low (53-byte

w_adr

00

01

02

03

mode), or when a back-to-back read operation is needed

in order to get the first payload byte in time.

w_data

XX

H1H2

XX

H3H4 H5H5

XX

P1P2

The cycle is repeated until r_adr reaches 1B hex and the

Figure 8 ? Write Interface Cell Transfer

Once a complete 54-byte cell has been written to the

user interface (w_adr = 1B hex and w_enable high),

w_adr will reset to 00 hex, and w_enable will be

deasserted. If either u1_rx_clav or w_avail are deasserted

(low), then the CoreU1LL deselects the PHY-Layer device

and w_phy_act returns low (inactive). On the other hand,

if the PHY-Layer device is prepared to send another cell

last two bytes of the ATM cell are sent. At this point

r_adr is reset to 00 hex. If r_avail indicates that another

cell is immediately available, and u1_tx_clav remains

high, the CoreU1LL will immediately begin sending the

next cell ( Figure 10 on page 5 ). Otherwise r_buf_en

remains low until the CoreU1LL begins to transmit

another cell.

4

v4.0

发布紧急采购，3分钟左右您将得到回复。

采购需求

(若只采购一条型号，填写一行即可)

*型号	*数量	厂商	批号	封装

添加更多采购

我的联系方式

*

*

*

相关PDF资料

COREU1PHY-AR IP MODULE COREU1PHY

CORR-8BIT-XM-UT2 SITE LICENSE IP CORRELATOR XP

CP2-GSA-L CONN SHIELD LOWER TYPE A 22

CP2-HSA110-1 CONN SHROUD CPCI 2MM TYPE A 22

CP2-HSC055-4 CONN SHROUD CPCI 2MM TYPE C 11

CP2-K3567-SR-F COMPACT PCI - MISC

CP2105EK KIT EVAL FOR CP2105

CP881 CONN BNC PLUG CRIMP RG-58

相关代理商/技术参数

COREU1LL-EV 制造商:ACTEL 制造商全称:Actel Corporation 功能描述:CoreU1LL UTOPIA Level 1 Link-Layer Interface

COREU1LL-SN 制造商:ACTEL 制造商全称:Actel Corporation 功能描述:CoreU1LL UTOPIA Level 1 Link-Layer Interface

COREU1LL-SR 制造商:ACTEL 制造商全称:Actel Corporation 功能描述:CoreU1LL UTOPIA Level 1 Link-Layer Interface

COREU1LL-UR 制造商:ACTEL 制造商全称:Actel Corporation 功能描述:CoreU1LL UTOPIA Level 1 Link-Layer Interface

COREU1LL-XX 制造商:ACTEL 制造商全称:Actel Corporation 功能描述:CoreU1LL UTOPIA Level 1 Link-Layer Interface

COREU1PHY-AN 制造商:Microsemi Corporation 功能描述:COREU1PHY-UTOPIA LEVEL 1 PHY INTERFACE - Virtual or Non-Physical Inventory (Software & Literature)

COREU1PHY-AR 功能描述:IP MODULE COREU1PHY RoHS:否类别:编程器，开发系统 >> 软件系列:* 标准包装:1 系列:ISE® 设计套件类型:订阅适用于相关产品:Xilinx FPGAs 其它名称:Q4986209T1081384

COREU1PHY-EV 制造商:ACTEL 制造商全称:Actel Corporation 功能描述:CoreU1PHY - UTOPIA Level 1 PHY Interface