IP-CPRI Altera, IP-CPRI Datasheet - Page 40

IP-CPRI

Manufacturer Part Number

IP-CPRI

Description

IP CORE - Common Public Radio Interface (CPRI)

Manufacturer

Altera

Datasheets

1.IP-CPRI.pdf (142 pages)

2.IP-CPRI.pdf (150 pages)

Specifications of IP-CPRI

Software Application

IP CORE, Interface And Protocols, HIGH SPEED

Supported Families

Arria II GX, Cyclone IV GX, HardCopy IV, Stratix IV

Core Architecture

FPGA

Core Sub-architecture

Arria, Cyclone, Stratix

Rohs Compliant

Lead Free Status / RoHS Status

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4–16

Physical Layer

CPRI MegaCore Function User Guide

CPRI Link Reset Requests and Acknowledgements Based on hw_reset_assert Input Signal

The CPRI specification dictates that the Z.130.0 reset bit must be detected by the CPRI

partner in four consecutive hyperframes before the CPRI partner confirms the reset

request. The reset generation request is in effect while hw_reset_assert remains

asserted, until the reset acknowledge control bit is detected on the incoming CPRI

link, as long as the reset_hw_en bit remains high.

To abort a reset request made by asserting the hw_reset_assert input signal, set the

reset_hw_en bit of the CPRI_HW_RESET register to 0.

A CPRI MegaCore function in slave mode indicates that it detects a reset request sent

in CPRI communication by setting the reset_detect and reset_detect_hold bits of

the CPRI_HW_RESET register.

To acknowledge the reset request, the CPRI transmitter must send a reset

acknowledge on the CPRI link, by setting the Z.130.0 reset bit in ten consecutive

outgoing hyperframes. If the reset_hw_en bit of the CPRI_HW_RESET register is not set,

the CPRI transmitter sends a reset acknowledge only if the conditions described in

“CPRI Link Reset Requests and Acknowledgements Based on reset_gen_force

CPRI transmitter can send the reset acknowledge only if the application asserts the

hw_reset_assert signal. If the reset_out_en bit of the CPRI_HW_RESET register is set,

the CPRI MegaCore function asserts the external hw_reset_req signal until the reset

occurs. This signal informs the application layer of the low-level reset request. If the

reset_hw_en bit is set and the hw_reset_req signal is asserted, you must set the

hw_reset_assert signal, to tell the CPRI transmitter to send a reset acknowledge on

the CPRI link.

After it transmits the ten consecutive reset acknowledge bits, the CPRI transmitter

sets the reset_gen_done and reset_gen_done_hold bits.

For more information about the CPRI_HW_RESET register, refer to

page

Table 5–15 on page

After reset, software must perform link synchronization and other initialization tasks.

For information about the required initialization sequence following CPRI MegaCore

function reset, refer to

The Physical layer of the CPRI protocol is also called Layer 1. This layer controls the

electrical characteristics of the CPRI link, the time-division multiplexing of the

separate information flows in the protocol, and low-level signaling. The CPRI

interface module of the CPRI MegaCore function incorporates Altera’s high-speed

transceivers to implement Layer 1. The transceivers are configured in deterministic

latency mode, supporting the extended delay measurement requirements of the CPRI

specification.

This section describes features and blocks of the CPRI interface module.

shows a high-level block diagram of this module.

6–5. For more information about the hw_reset_assert input signal, refer to

hold. If the reset_hw_en bit of the CPRI_HW_RESET register is set, the

5–15.

Appendix A, Initialization

Sequence.

December 2010 Altera Corporation

Chapter 4: Functional Description

Table 6–12 on

Figure 4–9

Physical Layer

IP-CPRI Altera, IP-CPRI Datasheet - Page 40

IP-CPRI

Specifications of IP-CPRI

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