Table 1. cml output stage operation mode, Table 2. slew-rate control for cml output stage – Rainbow Electronics MAX3799 User Manual

MAX3799

1Gbps to 14Gbps, SFP+ Multirate Limiting
Amplifier and VCSEL Driver

16

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Dual Path Limiter

The limiting amplifier features a low data-rate mode
(1.25Gbps) and a high data-rate mode (up to
10.32Gbps), allowing for overall system optimization.
Either the RSEL pin or the RATE_SEL bit can perform
the rate selection. For operating up to 1.25Gbps, the
low data-rate mode (RATE_SEL = 0) is recommended.
For operation up to 14.025Gbps, the high data-rate
mode (RATE_SEL = 1) is recommended. The polarity of
the ROUT+/ROUT- relative to RIN+/RIN- is pro-
grammed by the RX_POL bit.

Offset Correction Circuitry

The offset correction circuit is enabled to remove pulse-
width distortion caused by intrinsic offset voltages with-
in the differential amplifier stages. An external capacitor
(C

AZ

) connected between the CAZ1 and CAZ2 pins is

used to set the offset correction loop cutoff frequency.
The offset loop can be disabled using the AZ_EN bit.

CML Output Stage with Deemphasis

and Slew-Rate Control

The CML output stage is optimized for differential 100

Ω

loads. The RXDE_EN bit adds analog deemphasis
compensation to the limited differential output signal for
SFP connector losses. The output stage is controlled by
a combination of the RX_EN and SQ_EN bits and the
LOS pin. See Table 1.

Amplitude of the CML output stage is controlled by an
8-bit DAC register (SET_CML). The differential output
amplitude range is from 40mV

P-P

up to 1200mV

P-P

with

4.6mV

P-P

resolution (assuming an ideal 100

Ω differen-

tial load).

Loss-of-Signal (LOS) Circuitry

The input data amplitude is compared to a preset
threshold controlled by the 6-bit DAC register
SET_LOS. The LOS assert level can be programmed
from 14mV

P-P

up to 77mV

P-P

with 1.5mV

P-P

resolution

(assuming an ideal 100

Ω differential source). LOS is

enabled through the LOS_EN bit and the polarity of the
LOS is controlled with the LOS_POL bit.

VCSEL Driver

The VCSEL driver inside the MAX3799 is designed to
operate from 1.0625Gbps to 10.32Gbps. The transmit-
ter contains a differential data path with pulse-width
adjustment, bias current and modulation current DACs,
output driver with programmable deemphasis, power-
on reset circuitry, BIAS monitor, VCSEL current limiter,
and eye safety circuitry. A 3-wire digital interface is
used to control the transmitter functions. The registers
that control the transmitter functionality are TXCTRL,
TXSTAT1, TXSTAT2, SET_IBIAS, SET_IMOD, IMOD-
MAX, IBIASMAX, MODINC, BIASINC, MODECTRL,
SET_PWCTRL, and SET_TXDE.

Differential Data Path

The CML input buffer is optimized for AC-coupled sig-
nals and is internally terminated with a differential
100

Ω. Differential input data is equalized for high-fre-

quency losses due to SFP connectors. The TX_POL bit
in the TXCTRL register controls the polarity of TOUT+
and TOUT- vs. TIN+ and TIN-. The SET_PWCTRL regis-
ter controls the output eye-crossing adjustment. A sta-
tus indicator bit (TXED) monitors the presence of an AC
input signal.

RX_EN

SQ_EN

LOS

OPERATION MODE

DESCRIPTION

0

X

X

CML output disabled.

1 0 X

CML

output

enabled.

1 1 0

CML

output

enabled.

1

1

1

CML output disabled.

Table 1. CML Output Stage Operation Mode

RATE_SEL

OPERATION MODE DESCRIPTION

0

1.25Gbps operation with reduced output
edge speed.

1

Up to 10.32Gbps operation.

Table 2. Slew-Rate Control for CML
Output Stage