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HFBR-5301 PDF даташит

Спецификация HFBR-5301 изготовлена ​​​​«Agilent(Hewlett-Packard)» и имеет функцию, называемую «Fibre Channel 133 MBd and Fibre Channel 133 MBd and Cost 1x9 Package Style».

Детали детали

Номер произв HFBR-5301
Описание Fibre Channel 133 MBd and Fibre Channel 133 MBd and Cost 1x9 Package Style
Производители Agilent(Hewlett-Packard)
логотип Agilent(Hewlett-Packard) логотип 

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HFBR-5301 Даташит, Описание, Даташиты
Fibre Channel 133 MBd and
266 MBd Transceivers in Low
Cost 1x9 Package Style
Technical Data
HFBR-5301 133 MBd
HFBR-5302 266 MBd
Features
• Full Compliance with ANSI
X3T11 Fibre Channel
Physical and Signaling
Interface
• Multisourced 1x9 Package
Style with Duplex SC
Connector
• Wave Solder and Aqueous
Wash Process Compatibility
• Compatible with Various
Manufacturers FC-0 and
FC-1 Circuits
Applications
• Fibre Channel 12.5 MB/s
12-M6-LE-I Interfaces for
1300 nm LED Links to
1500 m
• Fibre Channel 25 MB/s
25-M6-LE-I Interfaces for
1300 nm LED Links to
1500 m
Description
The HFBR-5301 and HFBR-5302
Fibre Channel Transceivers from
Hewlett-Packard provide the
system designer with products to
implement Fibre Channel designs
for use in multimode fiber (MMF)
applications. These include the
12.5 MB/sec 12-M6-LE-I interface
and the 25 MB/sec 25-M6-LE-I
interface for 1300 nm LED links.
5963-5608E (3/95)
The products are produced in the
new industry standard 1x9 SIP
package style with a duplex SC
connector interface as defined in
the Fiber Channel ANSI FC-PH
standard document.
The HFBR-5301 is a 1300 nm
transceiver specified for use in
133 MBd, 12.5 MB/s, 12-M6-LE-I
Fibre Channel interfaces to either
62.5/125 µm or 50/125 µm
multimode fiber-optic cables.
The HFBR-5302 is a 1300 nm
transceiver specified for use in
266 MBd, 25 MB/s, 25-M6-LE-I
Fibre Channel interfaces to either
62.5/125 µm or 50/125 µm
multimode fiber-optic cables.
Transmitter Sections
The transmitter sections of the
HFBR-5301 and HFBR-5302
utilize 1300 nm InGaAsP LEDs.
These LEDs are packaged in the
optical subassembly portion of
the transmitter section. They are
driven by a custom silicon IC
which converts PECL logic
signals, into an analog LED drive
current.
Receiver Sections
The receiver sections of the
HFBR-5301 and HFBR-5302
utilize InGaAs PIN photo diodes
coupled to a custom silicon
transimpedance preamplifier IC.
These are packaged in the optical
subassembly portion of the
receiver.
These PIN/preamplifier combina-
tions are coupled to a custom
quantizer IC which provides the
final pulse shaping for the logic
output and the Signal Detect
function. The Data output is
differential. The Signal Detect
output is single-ended. Both data
and signal detect outputs are
PECL compatible, ECL refer-
enced (shifted) to a +5 volt
power supply.
Package
The overall package concept for
the HP Fibre Channel trans-
ceivers consists of three basic
elements; the two optical
subassemblies, an electrical
subassembly and the housing
with integral duplex SC connec-
tor interface. This is illustrated in
the block diagram in Figure 1.
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HFBR-5301 Даташит, Описание, Даташиты
ELECTRICAL SUBASSEMBLY
DATA OUT
DUPLEX SC
RECEPTACLE
PIN
SIGNAL
DETECT
OUT
QUANTIZER IC
PREAMP IC OPTICAL
SUBASSEMBLIES
The electrical subassembly con-
sists of a high volume multilayer
printed circuit board to which the
IC chips and various surface-
mount passive circuit elements
are attached.
DATA IN
DRIVER IC
LED
Figure 1. Block Diagram.
TOP VIEW
The package outline drawing and
pin out are shown in Figures 2
and 3. The details of this package
outline and pin out are compliant
with the multisource definition of
the 1x9 single in-line package
(SIP). The low profile of the
Hewlett-Packard transceiver
design complies with the
maximum height allowed for the
duplex SC connector over the
entire length of the package.
The optical subassemblies utilize
a high volume assembly process
together with low cost lens
elements which result in a cost
effective building block.
(319.5.1420)MAX.
12.70
(0.500)
(215.0.4000)MAX.
HHFBR-5XXX
DATE CODE (YYWW)
SINGAPORE
3.30 ± 0.38
(0.130 ± 0.015)
0.75
+
-
0.08
0.05
(0.030+- 00..000032)
(100.4.3057)MAX.
AREA
RESERVED
FOR
PROCESS
PLUG
12.70
(0.500)
2.92
(0.115)
ø (00..04168)(9x)
NOTE 1
18.52
(0.729)
4.14
(0.163)
1.27
+
-
0.25
0.05
(0.050+-
0.010
0.002
)
NOTE 1
23.55
(0.927)
(200.8.3020)[8x(2.54/.100)]
16.70
(0.657)
17.32 20.32 23.32
(0.682) (0.800) (0.918)
0.87
(0.034)
23.24
(0.915)
15.88
(0.625)
NOTE 1: THE SOLDER POSTS AND ELECTRICAL PINS ARE PHOSPHOR BRONZE WITH TIN LEAD OVER NICKEL PLATING.
DIMENSIONS ARE IN MILLIMETERS (INCHES).
Figure 2. Package Outline Drawing.
The package includes internal
shields for the electrical and
optical subassemblies to insure
high immunity to external EMI
fields and low EMI emissions.
The outer housing, including the
duplex SC connector, is molded
of filled non-conductive plastic to
provide mechanical strength and
electrical isolation. The solder
posts are isolated from the circuit
design of the transceiver, while
they can be connected to a
ground plane on the circuit
board, doing so will have no
impact on circuit performance.
The transceiver is attached to a
printed circuit board with the
nine signal pins and the two
solder posts which exit the
bottom of the housing. The two
solder posts provide the primary
mechanical strength to withstand
the loads imposed on the trans-
ceiver by mating with the duplex
SC connectored fiber cables.
Application Information
The Applications Engineering
group in the Hewlett-Packard
Optical Communication Division
is available to assist with the
technical understanding and
design trade-offs associated with
these transceivers. You can
contact them through your local
Hewlett-Packard sales
representative.
The following information is
provided to answer some of the
most common questions about
the use of these parts.
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HFBR-5301 Даташит, Описание, Даташиты
1 = VEE
2 = RD
3 = RD
4 = SD
5 = VCC
6 = VCC
7 = TD
8 = TD
9 = VEE
N/C
N/C
TOP VIEW
Figure 3. Pinout Diagram.
Compatibility with Fibre
Channel FC-0/1 Chip Sets
The HFBR-5301 and HFBR-5302
transceivers are compatible with
various manufacturers FC-0 and
FC-1 integrated circuits. Evalua-
tion boards, which include the
Hewlett-Packard transceivers, are
available from these manufactur-
ers. The Applications Engineering
group in the Hewlett- Packard
Optical Communication Division
is available to assist you with
implementation details.
Transceiver Optical Power
Budget vs. Link Length
Optical Power Budget (OPB) is
the available optical power for a
fiber optic link to accommodate
fiber cable losses plus losses due
to in-line connectors, splices,
optical switches, and to provide
margin for link aging and
unplanned losses due to cable
plant reconfiguration or repair.
Figure 4 illustrates the predicted
OPB associated with the two
transceivers specified in this data
sheet at the Beginning of Life
(BOL). These curves represent
the attenuation and chromatic
plus modal dispersion losses
associated with the 62.5/125 µm
and 50/125 µm fiber cables only.
The area under the curves
8
7
HFBR-5301, 62.5/125µm
6
5
HFBR-5302, 62.5/125µm
4
HFBR-5301,
3 50/125µm
2
1 HFBR-5302, 50/125µm
0
0 0.5 1 1.5 2
FIBER OPTIC CABLE LENGTH – km
Figure 4. Optical Power Budget vs.
Fiber Optic Cable Length.
represents the remaining OPB at
any link length, which is available
for overcoming non-fiber cable
losses.
Hewlett-Packard LED technology
has produced 1300 nm LED
devices with lower aging charac-
teristics than normally associated
with these technologies in the
industry. The industry convention
is 1.5 dB aging for 1300 nm
LEDs. The HP LEDs will experi-
ence less than 1 dB of aging over
normal commercial equipment
mission life periods. Contact your
Hewlett-Packard sales represen-
tative for additional details.
Figure 4 was generated with a
Hewlett-Packard fiber optic link
model containing the current
industry conventions for fiber
cable specifications and the Fibre
Channel optical parameters.
These parameters are reflected in
the specified performance of the
transceiver in this data sheet.
This same model has been used
extensively in the ANSI and IEEE
committees, including the ANSI
X3T9.5 committee, to establish
the optical performance require-
ments for various fiber-optic
interface standards. The cable
parameters used come from the
ISO/IEC JTC1/SC 25/WG3
Generic Cabling for Customer
Premises per DIS 11801
document and the EIA/TIA-568-A
Commercial Building Telecom-
munications Cabling Standard
per SP-2840.
Transceiver Signaling
Operating Rate Range and
BER Performance
For purposes of definition, the
symbol rate (Baud), also called
signaling rate, is the reciprocal of
the symbol time. Data rate (bits/
sec) is the symbol rate divided by
the encoding factor used to
encode the data (symbols/bit).
The specifications in this data
sheet have all been measured
using the standard Fibre Channel
symbol rates of 133 Mbd or
266 MBd.
The transceivers may be used for
other applications at signaling
rates different than specified in
this data sheet. Depending on the
actual signaling rate, there may
be some differences in optical
1 x 10-2
1 x 10-3
1 x 10-4
1 x 10-5
1 x 10-6
1 x 10-7
1 x 10-8
1 x 10-9
1 x 10-10
1 x 10-11
1 x 10-12
-6 -4 -2 0 2
RELATIVE INPUT OPTICAL POWER – dB
CONDITIONS:
1. 133 & 266 MBd
2. PRBS 27-1
3. CENTER OF SYMBOL SAMPLING
4. TA = 25 °C
5. VCC = 5 VDC
6. INPUT OPTICAL RISE/FALL TIMES =
1.0/1.9 ns
Figure 5. HFBR-5301/5302 Bit Error
Rate vs. Relative Receiver Input
Optical Power.
217










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Номер в каталогеОписаниеПроизводители
HFBR-5301Fibre Channel 133 MBd and Fibre Channel 133 MBd and Cost 1x9 Package StyleAgilent(Hewlett-Packard)
Agilent(Hewlett-Packard)
HFBR-5302Fibre Channel 133 MBd and Fibre Channel 133 MBd and Cost 1x9 Package StyleAgilent(Hewlett-Packard)
Agilent(Hewlett-Packard)

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