Texas Instruments SMA breakout daughterboard for TLK10034 TLK10034SMAEVM TLK10034SMAEVM Ficha De Dados
Códigos do produto
TLK10034SMAEVM
Control and Output Status Signals
6
Control and Output Status Signals
All of the external control and status pins on the EVM are consolidated to a single location on the board
and broken out onto several header blocks and dip switches. LEDs are added to the LOSA, LOSB, LOSC,
LOSD, LS_OK_OUT_A, LS_OK_OUT_B, LS_OK_OUT_C, LS_OK_OUT_D, and PRBS_PASS signals in
addition to the headers for scope probes, to allow easy monitoring of the high/low value on the lines. The
LED is ON when the line is a logic high, and the LED is OFF when the line is a logic low.
and broken out onto several header blocks and dip switches. LEDs are added to the LOSA, LOSB, LOSC,
LOSD, LS_OK_OUT_A, LS_OK_OUT_B, LS_OK_OUT_C, LS_OK_OUT_D, and PRBS_PASS signals in
addition to the headers for scope probes, to allow easy monitoring of the high/low value on the lines. The
LED is ON when the line is a logic high, and the LED is OFF when the line is a logic low.
All status pins and external control pins of the TLK10034 can also be monitored or set high/low through
the GUI. The preferred method of setting these control pins is through the GUI via the TCA6424 I
the GUI. The preferred method of setting these control pins is through the GUI via the TCA6424 I
2
C-to-
GPIO IC located on the board. If shunts are placed on the header for a particular control pin, or the dip
switch setting set low, the signal is physically tied low and software control is not possible. Mixed use of
the hardware and software setting of various control pins is discouraged.
switch setting set low, the signal is physically tied low and software control is not possible. Mixed use of
the hardware and software setting of various control pins is discouraged.
The I
2
C-based software control of the TLK10034 control pins can be disabled by placing a shunt on
JMP24 which disables the level shifter attached to the signals by setting the enable pins low or by
selecting the Disable Software Control of Pins radio button located on the front panel of the GUI. This
allows the onboard pullup resistors or shunts to ground on the header pins to set the high/low status of the
control pins. If external control is desired and a shunt is placed on JMP24, the Disable Software Control of
Pins radio button on the GUI front panel must be de-selected, disabling the software portion of the
interface.
selecting the Disable Software Control of Pins radio button located on the front panel of the GUI. This
allows the onboard pullup resistors or shunts to ground on the header pins to set the high/low status of the
control pins. If external control is desired and a shunt is placed on JMP24, the Disable Software Control of
Pins radio button on the GUI front panel must be de-selected, disabling the software portion of the
interface.
The TCA6424 device responds to either I
2
C device address 0x22 or 0x23. When two boards are used and
daisy-chained together, the I
2
C address must be changed on the one of the two boards so that there is
individual control of both boards. Flipping the switch on SW5 changes the address from 0x22 to 0x23.
See the TLK10034 data sheet (
) for a detailed description of the control signals.
7
MDIO
The TLK10034 supports the Management Data Input/Output (MDIO) Interface as defined in Clause 22 and
Clause 45 of the IEEE 802.3 Ethernet Specification. The MDIO allows register-based management and
control of the serial links. Normal operation of the TLK10034 is possible without the use of this interface,
however, most additional features are accessible only through the MDIO interface.
Clause 45 of the IEEE 802.3 Ethernet Specification. The MDIO allows register-based management and
control of the serial links. Normal operation of the TLK10034 is possible without the use of this interface,
however, most additional features are accessible only through the MDIO interface.
The MDIO management interface consists of a bidirectional data path (MDIO) and a clock reference
(MDC). The port address is determined by control pins PRTAD[4:0] as described in the TLK10034 data
sheet
(MDC). The port address is determined by control pins PRTAD[4:0] as described in the TLK10034 data
sheet
The top 3 control pins PRTAD[4:2] determine the device port address and are set in hardware on the
board. The four individual channels in TLK10034 are classified as 4 different ports. So, any PRTAD[4:2]
value has 4 ports per TLK10034. The TLK10034 responds if the 3 MSB’s of the PHY address field on
MDIO protocol (PA[4:2]) matches PRTAD[4:2]. The LSB of PHY address field (PA[1:0]) determines which
channel or port within the TLK10034 to control.
board. The four individual channels in TLK10034 are classified as 4 different ports. So, any PRTAD[4:2]
value has 4 ports per TLK10034. The TLK10034 responds if the 3 MSB’s of the PHY address field on
MDIO protocol (PA[4:2]) matches PRTAD[4:2]. The LSB of PHY address field (PA[1:0]) determines which
channel or port within the TLK10034 to control.
•
If PA[1:0] = 2’b00, TLK10034’s channel A responds.
•
If PA[1:0] = 2’b01, TLK10034’s channel B responds.
•
If PA[1:0] = 2’b10, TLK10034’s channel C responds.
•
If PA[1:0] = 2’b11, TLK10034’s channel D responds.
Write transactions that address an invalid register or read-only registers are ignored. Read transactions of
invalid registers return a 0.
invalid registers return a 0.
The TLK10034 requires either 1.5- or 1.8-V I/O levels on the MDIO/MDC signals. Therefore, an on-board
bidirectional level shifter has been provided, level shifting the 3.3-V MDIO and MDC signals to the
appropriate 1.5/8V levels. If a different MDIO controller is used that already has 1.5- or 1.8-V signal levels,
resistors R184, R185, R170, and R171 must be removed, thus disconnecting the level shifter. Resistors
R161 and R165 can be installed which connect the TLK10034 MDIO and MDC signal pins directly to the
pins of JMP29.
bidirectional level shifter has been provided, level shifting the 3.3-V MDIO and MDC signals to the
appropriate 1.5/8V levels. If a different MDIO controller is used that already has 1.5- or 1.8-V signal levels,
resistors R184, R185, R170, and R171 must be removed, thus disconnecting the level shifter. Resistors
R161 and R165 can be installed which connect the TLK10034 MDIO and MDC signal pins directly to the
pins of JMP29.
7
SLLU168 – August 2012
TLK10034 Quad-Channel XAUI/10GBASE-KR Transceiver Evaluation
Module (EVM)
Copyright © 2012, Texas Instruments Incorporated