HFBR-5961GZ Datasheet HFBR-5961ALZ, HFBR-5961AGZ, HFBR-5961GZ | P7-P9

Electrostatic Discharge (ESD)

There are two design cases in which immunity to ESD

damage is important.

The rst case is during handling of the transceiver prior

to mounting it on the circuit board. It is important to

use normal ESD handling precautions for ESD sensitive

devices. These precautions include using grounded

wrist straps, work benches, and oor mats in ESD con-

trolled areas.

The second case to consider is static discharges to the

exterior the equipment chassis containing the trans-

ceiver parts. To the extent that the LC connector is

exposed to the outside of the equipment chassis it may

be subject to whatever ESD system level test criteria

that the equipment is intended to meet.

Figure 6. Recommended Board Layout Hole Pattern

2.29

(.090)

15.24

(.600)

MIN. PITCH

14.22 ± .10

(.560 ± .004)

0.81 ± .10

(.032 ± .004)

20 x Ø

1.40 ± .10

(.055 ± .004)

4 x Ø

(NOTE 5)

SEE DETAIL A

13.34

(.525)

12.16

(.479)

15.24

(.600)

7.59

(.299)

10.16

(.400)

4.57

(.180)

7.11

(.280)

1.78

(.070)

9 X

3.56

(.140)

5 4 3 2 1

6 7 8 9 10

SEE NOTE 3

8.89

(.350)

10.16 ± .10

(.400 ± .004)

TOP OF PCB

SECTION A - A

+ 1.50

- 0

(+.059)

(- .000)

1.00

(.039)

+ 0

- 0.75

(+.000)

(- .030)

15.75

(.620)

DETAIL B (4 x)

.039

1.8

.071

DETAIL A (3 x)

(.118)

2 x Ø MAX. (AREA FOR EYELET'S)

(.236)

1.40 ± .10

(.055 ± .004)

2 x Ø

(NOTE 4)

(.118)

25.75

(1.014)

MIN. PITCH

SEE DETAIL B

Electromagnetic Interference (EMI)

Most equipment designs utilizing this high speed trans-

ceiver from Avago will be required to meet the require-

ments of FCC in the United States, CENELEC EN55022

(CISPR 22) in Europe and VCCI in Japan.

This product is suitable for use in designs ranging from

a desktop computer with a single transceiver to a con-

centrator or switch product with a large number of

transceivers.

NOTES:

1. THIS PAGE DESCRIBES THE RECOMMENDED CIRCUIT BOARD LAYOUT AND FRONT PANEL OPENINGS FOR SFF TRANSCEIVERS.

2. THE HATCHED AREAS ARE KEEP-OUT AREAS RESERVED FOR HOUSING STANDOFFS. NO METAL TRACES ALLOWED IN KEEP-OUT AREAS.

3. THIS DRAWING SHOWS EXTRA PIN HOLES FOR 2 x 6 PIN AND 2 x 10 PIN TRANSCEIVERS. THESE EXTRA HOLES ARE NOT REQUIRED FOR HFBR-5961xxZ AND OTHER

2 x 5 PIN SFF MODULES.

4. HOLES FOR MOUNTING STUDS MUST NOT BE TIED TO SIGNAL GROUND BUT MAY BE TIED TO CHASSIS GROUND.

5. HOLES FOR HOUSING LEADS OPTIONAL AND NOT REQUIRED FOR HFBR-5961L/HFBR-5961G. IF NEEDED IN FUTURE, THESE HOLES MUST BE TIED TO SIGNAL

GROUND.

6. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).

Regulatory Compliance Table

Feature Test Method Performance

Electrostatic Discharge

(ESD) to the Electrical

Pins

MIL-STD-883C Meets Class 2 (2000 to 3999 Volts).Withstand up to 2200 V

applied between electrical pins.

Electrostatic Discharge

(ESD) to the LC Recep-

tacle

Variation of IEC 61000-4-2 Typically withstand at least 25 kV without damage when

the LC connector receptacle is contacted by a Human Body

Model probe.

Electromagnetic Inter-

ference (EMI)

FCC Class B

CENELEC CEN55022 VCCI

Class 2

Transceivers typically provide a 10 dB margin to the noted

standard limits when tested at a certied test range with

the transceiver mounted to a circuit card without a chassis

enclosure.

Immunity Variation of IEC 61000-4-3 Typically show no measurable eect from a 10 V/m eld

swept from 80 to 450 MHz applied to the transceiver when

mounted to a circuit card withouta chassis enclosure.

Eye Safety AEL Class 1EN60825-1 (+A11) Compliant per Avago testing under single fault conditions.

TUV Certication - R 02071015

Component Recogni-

tion

Underwriters Laboratories and

Canadian Standards Association Joint

Component Recognition for Informa-

tion Technology Equipment including

Electrical Business Equipment

UL File #: E173874

200

100

– TRANSMITTER OUTPUT OPTICAL RISE/FALL TIMES – ns

1280 1300 1320

180

160

140

120

13601340

∆λ

TRANSMITTER OUTPU

OPTICAL

SPECTRAL WIDTH (FW

1.0

1.5

2.5

3.0

2.0

HFBR-5961xxZ TRANS-

MITTER TEST RESULTS

OF λ

∆λ AND t

r/f

ARE

1260

r/f

– TRANSMITTER

OUTPUT OPTICAL RISE/

FALL TIMES – ns

3.0

CORRELATED AND COMPLY

WITH THE ALLOWED

SPECTRAL WIDTH AS A

FUNCTION OF CENTER

WAVELENGTH FOR

VARIOUS RISE AND

FALL TIMES.

-3 -2 -1 0 1 2 3

EYE SAMPLING TIME POSITION (ns)

RELATIVE INPUT OPTICAL POW

ER (dB)

CONDITIONS:

1. T

= +25 C

2. V

= 3.3 V dc

3. INPUT OPTICAL RISE/

FALL TIMES = 2.1/1.9 ns.

4. INPUT OPTICAL POWER

IS NORMALIZED TO

CENTER OF DATA SYMBOL.

5. NOTE 15 AND 16 APPLY.

Figure 8. Relative Input Optical Power vs Eye Sampling Time Position

Figure 7. Transmitter Output Optical Spectral Width (FWHM) vs. Transmit-

ter Output Optical Center Wavelength and Rise/Fall Times

Immunity

Equipment utilizing these transceivers will be subject

to radio-frequency electromagnetic elds in some envi-

ronments. These transceivers have a high immunity to

such elds.

For additional information regarding EMI, susceptibil-

ity, ESD and conducted noise testing procedures and

results. Refer to Application Note 1166, Minimizing

Radiated Emissions of High-Speed Data Communica-

tions Systems.

Transceiver Reliability and Performance Qualication Data

The 2 x 5 transceivers have passed Avago reliability and

performance qualication testing and are undergoing

ongoing quality and reliability monitoring. Details are

available from your Avago sales representative.

These transceivers are manufactured at the Avago

Singapore location which is an ISO 9001 certied

facility.

Applications Support Material

Contact your local Avago Component Field Sales Oce

for information on how to obtain PCB layouts and eval-

uation boards for the 2 x 5 transceivers.

Absolute Maximum Ratings

Stresses in excess of the absolute maximum ratings can cause catastrophic damage to the device. Limits apply to

each parameter in isolation, all other parameters having values within the recommended operating conditions. It

should not be assumed that limiting values of more than one parameter can be applied to the product at the same

time. Exposure to the absolute maximum ratings for extended periods can adversely aect device reliability.

Parameter Symbol Minimum Typical Maximum Units Notes

Storage Temperature T

-40 +100 °C

Lead Soldering Temperature T

SOLD

+260 °C

Lead Soldering Time t

SOLD

10 sec

Supply Voltage V

-0.5 3.63 V

Data Input Voltage V

-0.5 V

Dierential Input Voltage (p-p) V

2.0 V 1

Output Current I

50 mA

Recommended Operating Conditions

Parameter Symbol Minimum Typical Maximum Units Notes

Case Operating Temperature

HFBR-5961LZ/GZ

HFBR-5961ALZ/AGZ

-40

+70

+85

°C

Supply Voltage V

2.97 3.3 3.63 V

Data Input Voltage - Low V

- V

-1.810 -1.475 V

Data Input Voltage - High V

- V

-1.165 -0.880 V

Data and Signal Detect Output Load R

Dierential Input Voltage (p-p) V

0.800 V

Transmitter Electrical Characteristics

HFBR-5961LZ/GZ (T

= 0 °C to +70 °C, V

=2.97 V to 3.63 V)

HFBR-5961ALZ/AGZ (T

= -40 °C to +85 °C, V

=2.97 V to 3.63V)

Parameter Symbol Minimum Typical Maximum Units Notes

Supply Current I

110 175 mA 3

Power Dissipation P

DISS

0.4 0.64 W 5a

Data Input Current - Low I

-350 -2 µA

Data Input Current - High I

18 350 µA

P1-P3 P4-P6 P7-P9 P10-P12 P13-P13

HFBR-5961GZ

Mfr. #:

Buy HFBR-5961GZ

Manufacturer:

Broadcom / Avago

Description:

Fiber Optic Transmitters, Receivers, Transceivers OC3/FE LC SFF

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

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HFBR-5961GZ

HFBR-5961GZ

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