DS110RT410 Datasheet, PDF(25/40 Page) Texas Instruments – DS110RT410 Low Power Multi-Rate Quad Channel Retimer

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

DS110RT410 Datasheet, PDF (25/40 Pages) Texas Instruments – DS110RT410 Low Power Multi-Rate Quad Channel Retimer

◁

DS110RT410

www.ti.com

SNLS460 â MAY 2013

Each channel of the DS110RT410 will generate an interrupt under several different conditions. The DS110RT410

will always generate an interrupt when it loses CDR lock or when a signal, once detected, is no longer detected

at its input. If the HEO/VEO interrupt is enabled by setting bit 6 of register 0x36, then the retimer will generate an

interrupt when the horizontal or vertical eye opening falls below the preset values even if the retimer remains

locked. When one of these interrupt conditions occurs, the retimer alerts the system controller via hardware and

provides additional details via register reads over the SMBus.

First, the open-drain interrupt line INT is pulled low. This indicates that one or more of the channels of the retimer

has generated an interrupt. The interrupt lines from multiple retimers can be wire-ANDed together so that if any

retimer generates an interrupt the system controller can be notified using a single interrupt input.

If the interrupt has occurred because the horizontal or vertical eye opening has dropped below the pre-set

threshold, which is set in channel register 0x32, then bit 4 of register 0x30 will go high. This indicates that the

source of the interrupt was the HEO or VEO.

If the interrupt has occurred because the CDR has fallen out of lock, or because the signal is no longer detected

at the input, then bit 4 and/or bit 0 of register 0x01 will go high, indicating the cause of the interrupt.

In either case, the control/shared register set will indicate which channel caused the interrupt. This is read from

bits 3:0 of control/shared register 0x05.

When an interrupt is detected by the controller on the interrupt input, the controller should take the following

steps to determine the cause of the interrupt and clear it.

1. The controller detects the interrupt by detecting that the INT line has been pulled low by one of the retimers

to which it is connected.

2. The controller reads control/shared register 0x05 from all the DS110RT410s connected to the INT line. For at

least one of these devices, at least one of the bits 3:0 will be set in this register.

3. For each device with a bit set in bits 3:0 of control/shared register 0x05, the controller determines which

channel or channels produced an interrupt. Refer to Table 5 for a mapping of the bits in this bit field to the

channel producing the interrupt.

4. When the controller detects that one of the retimers has a 1 in one of the four LSBs of this register, the

controller selects the channel register set for that channel of that retimer by writing to the channel select

5. For each channel that generated an interrupt, the controller reads channel register 0x01. If bit 4 of this

caused by a loss of signal. it is possible that both bits 0 and 4 could be set. Reading this register will clear

these bits.

6. Optionally, for each channel that generated an interrupt, the controller reads channel register 0x30. If bit 4 of

this register is set, then the interrupt was caused by HEO and/or VEO falling out of the configured range.

This interrupt will only occur if bit 6 of channel register 0x36 is set, enabling the HEO/VEO interrupt. Reading

7. Once the controller has determined what condition caused the interrupt, the controller can then take the

appropriate action. For example, the controller might reset the CDR to cause the retimer to re-adapt to the

incoming signal. If there is no longer an incoming signal (indicated by a loss of signal interrupt, bit 0 of

channel register 0x01), then the controller might alert an operator or change the channel configuration. This

is system dependent.

8. Reading the interrupt status registers will clear the interrupt. If this does not cause the interrupt input to go

high, then another device on the same input has generated an interrupt. The controller can address the next

device using the procedure above.

9. Once all the interrupt registers for all channels for all DS110RT410s that generated interrupts have been

read, clearing all the interrupt indications, the INT line should go high again. This indicates that all the

existing interrupt conditions have been serviced.

The channel registers referred to above, registers 0x01, 0x30, 0x32, and 0x36, are described in the channel

registers table, Table 7.

Overriding the CTLE Boost Setting

Product Folder Links: DS110RT410

Submit Documentation Feedback

▷