AFBR-5805ATZ Avago Technologies US Inc., AFBR-5805ATZ Datasheet - Page 9
AFBR-5805ATZ
Manufacturer Part Number
AFBR-5805ATZ
Description
TXRX ATM SONET OC3 3V ST 1X9
Manufacturer
Avago Technologies US Inc.
Datasheet
1.AFBR-5805TZ.pdf
(14 pages)
Specifications of AFBR-5805ATZ
Applications
General Purpose
Wavelength
1310nm
Voltage - Supply
3.3V
Connector Type
ST
Mounting Type
Through Hole
Data Rate Max
0.1Gbps
Supply Voltage
5V
Wavelength Typ
1300nm
Leaded Process Compatible
Yes
Optical Fiber Type
TX/RX
Data Transfer Rate
100Mbps
Optical Rise Time
3/2.2ns
Optical Fall Time
3/2.2ns
Jitter
1.2/1.91ns
Operating Temperature Classification
Commercial
Peak Wavelength
1380nm
Operating Supply Voltage (min)
3.135/4.75V
Operating Supply Voltage (typ)
3.3/5V
Operating Supply Voltage (max)
3.5/5.25V
Output Current
50mA
Operating Temp Range
-10C to 85C
Mounting
Through Hole
Pin Count
9
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Data Rate
-
Lead Free Status / Rohs Status
Compliant
Regulatory Compliance Table
Regulatory Compliance
These transceiver products are intended to enable com-
mercial system designers to develop equipment that
complies with the various international regulations gov-
erning certification of Information Technology Equip-
ment. See the Regulatory Compliance Table for details.
Additional information is available from your Avago
Technologies sales representative.
Electrostatic Discharge (ESD)
There are two design cases in which immunity to ESD
damage is important.
The first 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 floor mats in ESD con-
trolled areas.
The second case to consider is static discharges to the
exterior of the equipment chassis containing the trans-
ceiver parts. To the extent that the duplex SC connector
is exposed to the outside of the equipment chassis it
may be subject to whatever ESD system level test crite-
ria that the equipment is intended to meet.
9
Feature
Electrostatic Discharge
(ESD) to the Electrical Pins
Electrostatic Discharge
(ESD) to the Duplex SC
Receptacle
Electromagnetic
Interference (EMI)
Immunity
Test Method
MIL-STD-883C
Method 3015.4
Variation of
IEC 801-2
FCC Class B
CENELEC CEN55022
Class B (CISPR 22B)
VCCI Class 2
Variation of IEC 61000-4-3
Performance
Meets Class 1 (<1999 Volts).
Withstand up to 1500 V applied between electrical pins.
Typically withstand at least 25 kV without damage when the Duplex
SC Connector Receptacle is contacted by a Human Body Model
probe.
Transceivers typically provide a 13 dB margin (with duplex SC recep-
tacle) or a 9 dB margin (with duplex ST receptacles) to the noted stan-
dard limits. However, it should be noted that final margin depends on
the customer’s board and chassis design.
Typically show no measurable effect from a 10 V/m field swept from
10 to 450 MHz applied to the transceiver when mounted to a circuit
card without a chassis enclosure.
Figure 9. Transmitter Output Optical Spectral Width (FWHM) vs.
Transmitter Output Optical Center Wavelength and Rise/Fall
Times.
Electromagnetic Interference (EMI)
Most equipment designs utilizing these high speed
transceivers from Avago Technologies will be required to
meet the requirements of FCC in the United States, CEN-
ELEC EN55022 (CISPR 22) in Europe and VCCI in Japan.
These products are suitable for use in designs ranging
from a desktop computer with a single transceiver to a
concentrator or switch product with large number of
transceivers.
In all well-designed chassis, the two 0.5” holes required
for ST connectors to protrude through will provide
4.6 dB more shielding than one 1.2” duplex SC rectangu-
lar cutout. Thus, in a well-designed chassis, the duplex
ST 1 x 9 transceiver emissions will be identical to the
duplex SC 1 x 9 transceiver emissions.
180
160
140
120
100
200
1260
AFBR-5805 TRANSMITTER TEST RESULTS
OF l
COMPLY WITH THE ALLOWED SPECTRAL WIDTH
AS A FUNCTION OF CENTER WAVELENGTH FOR
VARIOUS RISE AND FALL TIMES.
l
FALL TIMES – ns
1.0
1.5
2.0
2.5
3.0
C
C
, ∆l AND t
– TRANSMITTER OUTPUT OPTICAL RISE/
1280
r/f
1300
ARE CORRELATED AND
t
OUTPUT OPTICAL
RISE/FALL TIMES – ns
r/f
– TRANSMITTER
1320
1340
3.0
1360
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