ADN2819ACP-CML Analog Devices Inc, ADN2819ACP-CML Datasheet - Page 10

ADN2819ACP-CML

Manufacturer Part Number

ADN2819ACP-CML

Description

IC RECOVER CLOCK/DATA 48-LFCSP

Manufacturer

Analog Devices Inc

Type

Clock and Data Recovery (CDR)r

Datasheet

1.ADN2819ACP-CML.pdf (24 pages)

Specifications of ADN2819ACP-CML

Rohs Status

RoHS non-compliant

Output

CML

Frequency - Max

2.7GHz

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

48-LFCSP

Frequency-max

2.7GHz

Input

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ADN2819

LOS RESPONSE TIME

The LOS response time is the delay between the removal of the

input signal and indication of loss of signal (LOS) at SDOUT.

The ADN2819’s response time is 300 ns typ when the inputs are

dc-coupled. In practice, the time constant of ac-coupling at the

quantizer input determines the LOS response time.

JITTER SPECIFICATIONS

The ADN2819 CDR is designed to achieve the best bit-error-

rate (BER) performance, and has exceeded the jitter transfer,

generation, and tolerance specifications proposed for

SONET/SDH equipment defined in the Telcordia Technologies

specification.

Jitter is the dynamic displacement of digital signal edges from

their long-term average positions measured in UI (unit

intervals), where 1 UI = 1 bit period. Jitter on the input data

can cause dynamic phase errors on the recovered clock

sampling edge. Jitter on the recovered clock causes jitter on the

retimed data.

The following sections summarize the specifications of the jitter

generation, transfer, and tolerance in accordance with the

Telcordia document (GR-253-CORE, Issue 3, September 2000)

for the optical interface at the equipment level, and the

ADN2819 performance with respect to those specifications.

Jitter Generation

Jitter generation specification limits the amount of jitter that

can be generated by the device with no jitter and wander

applied at the input. For OC-48 devices, the band-pass filter has

a 12 kHz high-pass cutoff frequency, with a roll-off of

20 dB/decade and a low-pass cutoff frequency of at least

20 MHz. The jitter generated should be less than 0.01 UI rms

and 0.1 UI p-p.

Jitter Transfer

Jitter transfer function is the ratio of the jitter on the output

signal to the jitter applied on the input signal versus the

frequency. This parameter measures the limited amount of jitter

on an input signal that can be transferred to the output signal

(see Figure 11).

Rev. B | Page 10 of 24

Jitter Tolerance

Jitter tolerance is defined as the peak-to-peak amplitude of the

sinusoidal jitter applied on the input signal that causes a 1 dB

power penalty. This is a stress test that is intended to ensure no

additional penalty is incurred under the operating conditions

(see Figure 12). Figure 13 shows the typical OC-48 jitter

tolerance performance of the ADN2819.

0.1

0.15

1.5

100

0.1

ACCEPTABLE

RANGE

Figure 12. SONET Jitter Tolerance Mask

Figure 13. OC-48 Jitter Tolerance Curve

Figure 11. Jitter Transfer Curve

JITTER FREQUENCY (kHz)

MODULATION FREQUENCY (Hz)

100

OC-48 SONET MASK

JITTER FREQUENCY (Hz)

SLOPE = –20dB/DECADE

10k

ADN2819

100k

SLOPE = –20dB/DECADE

10M

ADN2819ACP-CML Analog Devices Inc, ADN2819ACP-CML Datasheet - Page 10

ADN2819ACP-CML

Specifications of ADN2819ACP-CML

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