Datasheet R480CMAA, R480CPAA, R480CPBB, R480FMAA, R480FPAA Datasheet (AGERE)

R480-Type Lightwave Receiver with CML Data Output
for up to 2.488 Gbits/s Applications

Applications

■

Telecommunications:
— Inter- and intraoffice SONET/SDH
— Subscribe r loo p
— Metropolitan area networks

■

High-speed data communications

Description

Data Sheet, Rev. 1

September 2001

Manufactured in a low-profile, 24-pin package, the R480-Type
receiver features either an avalanche or PIN photodetector, a
transimpedance amplifier, and a limiting amplifier IC.

Features

■

Multisourced footprint

■

Internal APD bias supply

■

Differential CML data output

■

APD and PIN versions

■

Typical sensitivity:
—APD, –32 dBm
—PIN, –23 dBm

■

Operation at 1.3 µm or 1.55 µm

■

TTL link status flag

■

Wide operating case temperature range:
—APD, 0 °C to +85 °C
—PIN, –40 °C to +85 °C

The R480-Type 2.5 Gbits/s lightwave receiver is
designed for use in SONET and synchronous digital
hierarchy (SDH) telecommunications applications up
to OC-48 and STM-16 data rates, and high-speed
data communications applications. The receiver con­verts received optical signals in the range of 1.2 µm
to 1.6 µm wavelength into differential CML data out­puts. The receiver consists of either an InGaAs APD
or PIN photodetector (depending on model selected),
a transimpedance amplifier, and a limiting amplifier
that provides differential CML data output. A TTL
compatible link status flag signal indicates when
there is a loss of optical signal.

The receiver is manufactured in a low-profile, pig­tailed, 24-pin plastic DIP package. It requires a sin­gle, 5.0 V power supply. The APD version has the
added benefit of containing the high-voltage supply
internal to the receiver. This internal supply also pro­vides the necessary temperature compensation for
the APD. An analog photodetector monitor provides a
voltage proportional to the optical input level voltage
(OILV).

■

Space-saving, self-contained, 24-pin DIP

■

Agere Systems Inc. Reliabi li ty and Qu al ifi ca tio n
Program for built-in quality

■

SONET/SDH compatible for OC-48/STM-16 data
rate

R480-Type Lightwave Receiver with CML Data Output Data Sheet, Rev. 1
for up to 2.488 Gbits/s Applications September 2001

Flag Output

When the incoming optical signal falls below the link­status switching threshold, the FLAG output is asserted
and the FLAG output logic level changes from a TTL
low to a TTL high.

Pin Information

Table 1. Pin Information

Pin Name Pin Name

CC

†

§

†

1 NIC* 24 NUC
2 NUC
3LOS Flag

†

‡

23 OILV

22 V
4 Ground 21 NUC
5 NIC* 20 Ground
6 NIC* 19 Ground
7 Ground 18 NIC*
8V

CC

17 Ground
9 Ground 16 Ground

10 DATA 15 Ground
11 DATA

14 Ground

12 Ground 13 NIC*

* Pins labeled NIC have no internal connection.
† Pins designated as no user connect (NUC) are connected inter-

nally. The user should not make any connections to these pins.

‡ The loss of signal (LOS) FLAG output is a logic level that indicates

the presence or absence of a minimum acceptable level of optical
input. A TTL logic HIGH indicates the absence of a valid optical
input signal.

§ Analog optical input level voltage (OILV) is proportional to the opti­cal input power.

Handling Precautions

The R480-Type receiver is manufactured with a
39 in. ± 4 in. (100 cm ± 10 cm) single-mode or multi­mode fiber pigtail. SC, FC/PC, LC, and MU connectors
are offered on standard versions. Other optical connec­tor options are available on special order. Please con­tact an Agere Systems’ Account Manager for
availability and ordering information.

Receiver Processing

The R480-Type receiver devices can withstand normal
wave-soldering processes. The complete receiver
module is not hermetically sealed; therefore, it should
not be immersed in, or sprayed with, any solutions. The
optical connector process cap deformation temperature
is 85 °C. The receiver pins can be wave soldered at
250 °C for 10 seconds.

Electrostatic Discharge

CAUTION: This device is susceptible to damage as

a result of electrostatic discharge (ESD).
Take proper precautions during both
handling and testing. Follow guidelines
such as JEDEC Publication No. 108-A
(Dec. 1988).

Although protection circuitry is designed into the
device, take proper precautions to avoid exposure to
ESD .

Agere Systems employs a human-body model (HBM)
for ESD-susceptibility testing and protection design
evaluation. ESD voltage thresholds are dependent on
the critical parameters used to define the model. A
standard HBM (resistance = 1.5 kΩ, capacitance =
100 pF) is widely used and, therefore, can be used for
comparison purposes.

Installation Considerations

Although the receiver has been designed with rugged­ness in mind, care should be used during handling.
The optical connector should be kept free from dust.
The optical connector process cap should be kept in
place as a dust cover when the device is not connected
to a cable. If contamination is present on the optical
connector, the use of canned air with a extension tube
should remove any loose debris. Other cleaning proce­dures are outlined in the

blies

Technical Note (TN95-010LWP).

The cable should be handled conservatively, with no
excessive axial pulling or lateral tugging.

Cleaning Fiber Optic Assem-

The minimum fiber bending radius is 1.5 inches
(38 mm).

2

2

Agere Systems Inc.

Data Sheet, Rev. 1 R480-Type Lightwave Receiver with CML Data Output
September 2001 for up to 2.488 Gbits/s Applications

Absolute Maximum Ratings

Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are abso­lute stress ratings only. Functional operation of the device is not implied at these or any other conditions in excess
of those given in the operational sections of the data sheet. Exposure to absolute maximum ratings for extended
periods can adversely affect device reliability.

Parameter Symbol Min Max Unit

Operating Case Temperature Range:

APD
PIN

Storage Temperature T

C

T

C

T

stg

0

–40

85
85

–40 85 °C

Optical Input Power—Biased:

APD
PIN

Supply Voltages V

IN

P

IN

P

CC

—
—

0
8

06.5V

Lead Soldering Temperature/Time — — 250/10 °C/s

°C
°C

dBm
dBm

Characteristics

Table 2. Optical Characteristics

–10

At 1.3 µm wavelength and 1 x 10

Parameter Symbol Min

Measured Average Sensitivity:

APD
PIN

Maximum Input Power:

APD
PIN

Link Status Switching Threshold

Decreasing Light Input:

APD

PIN
Flag Response Time t
Signal-Detect Hysteres is — 1.2 — — dB
Optical Input Level Voltage:

‡

PIN at 0 dBm
APD at –10 dBm

Reflectance:

Single-mode Fiber
Multimode Fiber

BER with 223 – 1 NRZ pseudorandom data.

†

Typ

–32
–23

—
—

–40
–27

2.0

2.0

—
—

MIN

P

MIN

P

MAX

P

MAX

P

LSTD
LSTD

FLAG

OILV
OILV

—
—

*

—
—

–8
–3

–45
–34

3 — 1000 µs

—
—

—
—

Max

–30
–21

—
—

–35
–24

—
—

–27
–14

*

Unit

dBm
dBm

dBm
dBm

dBm
dBm

V
V

dB
dB

* Over operating temperature range and at end of life.
†Typical values at room temperature and beginning of life.
‡OILV measured with respect to ground.

Agere Systems Inc.

3

R480-Type Lightwave Receiver with CML Data Output Data Sheet, Rev. 1
for up to 2.488 Gbits/s Applications September 2001

Characteristics

(continued)

Table 3. Electrical Characteristics

Parameter Symbol Min Typ

*

Max Unit

Bit Rate — 100 — 2488.57 Mbits/s
dc Power Supply Voltages V

CC

4.75 5.0 5.25 V
Power Consumption — — 0.7 1.0 W
Output Data Voltage:

Single Output
Differential Output

Output Flag Voltage:

High
Low

* Typical values measured at room temperature and beginning of life.
†Measured with a 50 Ω load to ground. Outputs must be ac-coupled (see Figure 2).
‡TTL output.

†

SV
DV

‡

FOH

V

FOL

V

0.3

0.6

2.5
0

—
—

5.0

0.2

0.5

1.0

V

0.8

CC

Vp-p
Vp-p

V
V

4

Agere System s Inc.

Data Sheet, Rev. 1 R480-Type Lightwave Receiver with CML Data Output
September 2001 for up to 2.488 Gbits/s Applications

Qualification and Reliability

The R480-type receiver is scheduled to complete the following qualification tests to meet the intent of

Technologies

Table 4. R480 Qualification Information

Mechanical Shock MIL-STD-883

Sine Vibration MIL-STD-883

Thermal Shock MIL-STD-883

Solderability MIL-STD-883

Integrity

Solvent

Resistance

Fiber Pull GR-468-CORE

Accelerating

(HTOB)

High T emperature

Storage

T emperature

Cycling

T emperature

Humidity Bias
Internal Water

™ GR-468-CORE.

Test Reference Conditions

Condition B

Method 2002

Method 2007

Method 1011

Method 2003

Lead

Aging

Vapor

ESD GR-468-CORE

MIL-STD-883
Method 2004

MIL-STD-883
Method 2015

Table 6

MIL-STD-883
Method 1005

GR-468-CORE

Table 6

GR-468-CORE

Section 5.20

GR-468-CORE

Table 6

MIL-STD-883
Method 1018

Section 5.22

5 times/axis

500 G, 1 ms

Condition A

20 G, 20 Hz—2000 Hz

4 min./cycle

4 cycles/axis

∆T = 100 °C R485

(Package Supplier Test) — — — Qualified by

(Package Supplier Test) — — — Qualified by

(Package Supplier Test) — — — Qualified by

1 kg; 3 times; 5 s R485

85 °C under bias,

2000 hours

85 °C storage,

2000 hours

–40 °C to +85 °C

100 Cycles for Pass/Fail

85 °C/85%

RH 1000 hours

5000 ppm Water Vapor R485

Human-Body Model R485

Code

Type

R485
R480

R485
R480

R480

R480
R485

R480

R485
R480

R485
R480

R485
R480

R480

R4806 Pieces

Sample

Size

11

Pieces

11

Pieces

11

Pieces

11

Pieces

25

Pieces

11

Pieces

11

Pieces

11

Pieces

11

Pieces

Pass/Fail Criteria Note

Change in Receiver

Sensitivity: –1.5 dB

Change in Receiver

Sensitivity: –1.5 dB

Physical Attributes

and Leak Check

Change in Receiver

Sensitivity: –1.5 dB

Change in Receiver

Sensitivity: –1.5 dB

Change in Receiver

Sensitivity: –1.5 dB

Change in Receiver

Sensitivity: –1.5 dB

Change in Receiver

Sensitivity: –1.5 dB

Change in Receiver

Sensitivity: –1.5 dB

Threshold

Minimum: 500 V

Telcordia

Qualified by

T48/P172

Qualified by

T48/P172

Qualified by

T48/P172

T48

T48

T48

Qualified by

P172

Qualified by

T48/P172;

Refer to

Chip Data

Qualified by

T48/P172

Qualified by

T48/P172

Qualified by

T48/P172

Qualified by

T48/P172

—

Agere Systems Inc.

5

R480-Type Lightwave Receiver with CML Data Output Data Sheet, Rev. 1
for up to 2.488 Gbits/s Applications September 2001

PWB Layout Guidelines

■

The data outputs are designed to drive 50 Ω loads.

■

Data output traces must be controlled-impedance lines and the termination impedance must match the line
impedance. Avoid 90° bends in the traces. Paired lines (i.e., DATA and DATA

■

Data output lines should be as short and straight as possible and should be shielded from noise sources to pre­vent noise from feeding back into the receiver.

■

Use high-quality multilayer printed-wiring boards. A ground plane should occupy the area directly beneath the
receiver.

1 µH

2.2 µF 15 µF

50 Ω TRANSMISSION

4, 7, 9, 12,

14—17, 19, 20

8, 22

CC

V

DATA

0.1 µF

NOTE 2

10

) must be equal in length.

+5 V

+

LINE (2X)

DATA

3

LOS (FLAG)

Note 1: Data outputs must be ac-coupled on customer board. Use a 0.1 µF chip capacitor with a low ESR. For optimum receiver performance,

both data outputs must be terminated in equivalent loads, even if one of the outputs is not being used.

CC

Note 2: The 0.1 µF V

the appropriate power supply leads and should provide a low-inductance path to the ground plane.

power supply bypass capacitors should be high-quality, low ESR chip capacitors that are located as close as possible to

OILV

11

23

0.1 µF

NOTE 1

50

Ω

1-934(C)d

Figure 1. Biasing and Interfacing to the R480-Type 2.5 Gbits/s Receiver

6

Agere System s Inc.

Data Sheet, Rev. 1 R480-Type Lightwave Receiver with CML Data Output
September 2001 for up to 2.488 Gbits/s Applications

Outline Diagrams

Dimensions are in inches and (millimeters).

0.014
(0.36)

0.122
(3.10)

0.495

(12.57)

0.018
(0.48)

13 24

12 1

BOTTOM VIEW

2.305

(58.55)

0.100

(2.54)

1.100

(27.94)

0.710

(18.03)

0.950

(24.13)

0.144

(3.36)

0.350
(8.89)

1.000

(25.40)

1.400

(35.56)

1-999(F)

Agere Systems Inc.

7

R480-Type Lightwave Receiver with CML Data Output Data Sheet, Rev. 1
for up to 2.488 Gbits/s Applications September 2001

Ordering Information

Table 5. Ordering Information for the R480-Type Receiver

Code Detector Type Connector Type Fiber Type Comcode

R480CMAA APD SC/PC Single-mode 108865668
R480FMAA APD FC/PC Single-mode 108865684

R480WMAA APD LC Single-mode TBD

R480JMAA APD MU Single-mode TBD
R480CPAA PIN SC/PC Single-mode 108865676

R480FPAA PIN FC/PC Single-mode 108865692

R480WPAA PIN LC Single-mode TBD

R480JPAA PIN MU Single-mode TBD
R480CPBB PIN SC/PC Multimode TBD
R480FPBB PIN FC/PC Multimode TBD

R480WPBB PIN LC Multimode TBD

R480JPBB PIN MU Multimode 109115022

Table 6. Related Product Information

Product Code Description Document Number

T48 Transmitter 2.5 Gbits/s Uncooled Laser Transmitter DS00-088OPTO
R485-Type Receiver 2.5 Gbits/s Receiver with Clock Recovery DS01-005OPTO

Telcordia Technologies

*

For additional information, contact your Agere Systems Account Ma na ger or the following:
INTERNET:
E-MAIL:
N. AMERICA: Agere Systems Inc., 555 Union Boulevard, Room 30L-15P-BA, Allentown, PA 18109-3286

ASIA: Agere Systems Hong Kong Ltd., Suites 3201 & 3210-12, 32/F, Tower 2, The Gateway, Harbour Ci ty, Kowloon

EUROPE:

Agere Systems Inc. reserves the right to make changes to the product(s) or information contained herein without notice. No liability is assumed as a result of their use or application.

http://www.agere.com
docmaster@agere.com

1-800-372-2447
Tel. (852) 3129-2000

CHINA:
JAP AN:

Tel. (44) 7000 624624

is a trademark of Telcordia Technologies.

, FAX 610-712-4106 (In CANADA:

(86) 21-5047-12 12
(81) 3-5421-160 0

, FAX (852) 3 129-2 020

(Shanghai),

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1-800-553-2448

(Beijing),

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, FAX 610-712-4106)

(86) 755-695-7224

(65) 778-8833

(Shenzhen)

, TAIWAN:

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(Taipei)

Copyright © 2001 Agere Systems Inc.
All Rights Reserved

September 2001
DS01-011OPTO-1 (Replaces DS01-011OPTO)