Electrical characteristics (continued) – Rainbow Electronics MAX3799 User Manual

MAX3799

1Gbps to 14Gbps, SFP+ Multirate Limiting

Amplifier and VCSEL Driver

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7

ELECTRICAL CHARACTERISTICS (continued)

(V

CC

= 2.85V to 3.63V, T

A

= -40°C to +85°C, CML receiver output load is AC-coupled to differential 100

Ω, C

AZ

= 1nF, transmitter out-

put load is AC-coupled to differential 100

Ω (see Figure 1), typical values are at +25°C, V

CC

= 3.3V, I

BIAS

= 6mA, I

MOD

= 6mA, unless

otherwise specified. Registers are set to default values unless otherwise noted, and the 3-wire interface is static during measure-
ments. For testing, the RATE_SEL bit was used and the RSEL pin was left open.)

PARAMETER SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

SDA Setup Time

t

DS

100

ns

SDA Hold Time

t

DH

100

ns

SCL Rise to SDA Propagation
Time

t

D

5

ns

CSEL Pulse-Width Low

t

CSW

500

ns

CSEL Leading Time Before the
First SCL Edge

t

L

500

ns

CSEL Trailing Time After the
Last SCL Edge

t

T

500

ns

SDA, SCL External Load

C

B

Total bus capacitance on one line with
4.7k

pullup to V

CC

20

pF

Note 1: Supply current is measured with unterminated receiver CML output or with AC-coupled Rx output termination. The Tx out-

put and the bias current output must be connected to a separate supply to remove the modulation/bias current portion from
the supply current. BIAS must be connected to 2.0V. TOUT+/- must be connected through 50

Ω load resistors to a separate

supply voltage.

Note 2: Guaranteed by design and characterization, T

A

= -40°C to +95°C.

Note 3: The data input transition time is controlled by a 4th-order Bessel filter with -3dB frequency = 0.75 x data rate. The determin-

istic jitter caused by this filter is not included in the DJ generation specifications.

Note 4: Test pattern is 00001111 at 1.25Gbps for RATE_SEL = 0. Test pattern is 00001111 at 8.5Gbps for RATE_SEL = 1.
Note 5: Receiver deterministic jitter is measured with a repeating 2

31

- 1 PRBS equivalent pattern at 10.32Gbps. For 1.25Gbps to

8.5Gbps, a repeating K28.5 pattern [00111110101100000101] is used. Deterministic jitter is defined as the arithmetic sum
of pulse-width distortion (PWD) and pattern-dependent jitter (PDJ).

Note 6: Measured with a k28.5 pattern from 1.0625Gbps to 8.5Gbps. Measured with 2

31

- 1 PRBS at 10.32Gbps.

Note 7: Measurement includes an input AC-coupling capacitor of 100nF and C

CAZ

of 100nF. The signal at the input is switched

between two amplitudes: Signal_ON and Signal_OFF.
1) Receiver operates at sensitivity level plus 1dB power penalty.

a) Signal_OFF = 0

Signal_ON = (+8dB) + 10log(min_assert_level)

b) Signal_ON = (+1dB) + 10log(max_deassert_level)

Signal_OFF = 0

2) Receiver operates at overload.

Signal_OFF = 0
Signal_ON = 1.2V

P-P

max_deassert_level and the min_assert_level are measured for one LOS_THRESHOLD setting.

Note 8: Gain stability is defined as [(I_measured) - (I_reference)]/(I_reference) over the listed current range, temperature, and V

CC

from +2.95V to +3.63V. Reference current measured at V

CC

= +3.2V, T

A

= +25°C.

Note 9: Transmitter deterministic jitter is measured with a repeating 2

7

- 1 PRBS, 72 0s, 2

7

- 1 PRBS, and 72 1s pattern at

10.32Gbps. For 1.0625Gbps to 8.5Gbps, a repeating K28.5 pattern [00111110101100000101] is used. Deterministic jitter is
defined as the arithmetic sum of PWD and PDJ.

Note 10: Gain stability is defined as [(I_measured) - (I_reference)]/(I_reference) over the listed current range, temperature, and V

CC

from +2.85V to +3.63V. Reference current measured at V

CC

= +3.3V, T

A

= +25°C.