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PDF HFBR-5921L Data sheet ( Hoja de datos )
| Número de pieza | HFBR-5921L | |
| Descripción | (HFBR-5921L / HFBR-5923L) Transceiver | |
| Fabricantes | Hewlett-Packard | |
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Agilent HFBR-5921L/HFBR-5923L
Fibre Channel 2.125/1.0625 GBd 850 nm
Small Form Factor Pin Through Hole (PTH)
Low Voltage (3.3 V) Optical Transceiver
Data Sheet
Description
The HFBR-5921L/5923L optical
transceivers from Agilent
Technologies offer maximum
flexibility to Fibre Channel designers,
manufacturers, and system integra-
tors to implement a range of
solutions for multi-mode Fibre
Channel applications. This product
is fully compliant with all equip-
ment meeting the Fibre Channel
FC-PI 200-M5-SN-I and 200-M6-SN-I
2.125 GBd specifications, and is
compatible with the Fibre Channel
FC-PI 100-M5-SN-I, FC-PI
100-M6-SN-I, FC-PH2 100-M5-SN-I,
and FC-PH2 100-M6-SN-I 1.0625
GBd specifications. The
HFBR-5921L/5923L is also
compliant with the SFF Multi
Source Agreement (MSA).
Module Package
Agilent offers the industry two Pin
Through Hole package options
utilizing an integral LC-Duplex
optical interface connector. Both
transceivers use a reliable 850 nm
VCSEL source and requires a 3.3 V
DC power supply for optimal
system design.
Features
• Compliant with 2.125 GBd Fibre
Channel FC-PI standard
– FC-PI 200-M5-SN-I for
50/125 µm multimode cables
– FC-PI 200-M6-SN-I for
62.5/125 µm multimode cables
• Compliant with 1.0625 GBd VCSEL
operation for both 50/125 and
62.5/125 µm multimode cables
• Industry standard Pin Through
Hole (PTH) package
• LC-duplex connector optical
interface
• Link lengths at 2.125 GBd:
0.5 to 300 m – 50/125 µm MMF
0.5 to 150 m – 62.5/125 µm MMF
• Link lengths at 1.0625 GBd:
0.5 to 500 m – 50/125 µm MMF
0.5 to 300 m – 62.5/125 µm MMF
• Reliable 850 nm Vertical Cavity
Surface Emitting Laser (VCSEL)
source technology
• Laser AEL Class I (eye safe) per:
US 21 CFR (J)
EN 60825-1 (+All)
• Single +3.3 V power supply
operation
• 2 x 5 or 2 x 6 DIP package style
with LC-duplex fiber
• Wave solder and aqueous wash
process compatible
Applications
• Mass storage system I/O
• Computer system I/O
• High speed peripheral interface
• High speed switching systems
• Host adapter I/O
• RAID cabinets
Related Products
• HFBR-5602: 850 nm +5 V Gigabit
Interface Converter (GBIC) for Fiber
Channel FC-PH-2
• HFBR-53D3: 850 nm +5 V 1 x 9 Laser
transceiver for Fiber Channel
FC-PH-2
• HFBR-5910E: 850 nm +3.3 V SFF
MTRJ Laser transceiver for Fibre
Channel FC-PH-2
• HDMP-2630/2631: 2.125/1.0625 Gbps
TRx family of SerDes IC
• HFBR-5720L: 850 nm 3.3 V 2.125/
1.0625 Gbps SFP Transceiver
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Table 1. Regulatory Compliance
Feature
Electrostatic Discharge (ESD)
to the Electrical Pins
Electrostatic Discharge (ESD)
to the Duplex LC Receptacle
Electromagnetic Interference
(EMI)
Immunity
Eye Safety
Component Recognition
Test Method
MIL-STD-883C Method 3015.4
Performance
Class 2 (> 2000 V)
Variation of IEC 61000-4-2
Typically withstand at least 25 kV without damage
when the duplex LC connector receptacle is
contacted by a Human Body Model probe.
FCC Class B
CENELEC EN55022 Class B
(CISPR 22A)
VCCI Class 1
System margins are dependent on customer
board and chassis design.
Variation of IEC 61000-4-3
Typically shows a negligible effect from a 10 V/m
field swept from 80 to 1000 MHz applied to the
transceiver without a chassis enclosure.
US FDA CDRH AEL Class 1
EN(IEC)60825-1,2,
EN60950 Class 1
CDRH file # 9720151-13
TUV file # E9971086.061
Underwriters Laboratories and UL file # E173874
Canadian Standards Association
Joint Component Recognition for
Information Technology Equipment
including Electrical Business
Equipment.
Note:
1. Changes to IEC 60825-1,2 are currently anticipated to allow higher eye-safe Optical Output Power levels. Agilent may choose to take advantage
of these changes at a later date.
5
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Table 9. Receiver Optical Characteristics
(TC = 0˚C to 70˚C, VCCT,R = 3.3 V ± 5%)
Parameter
Symbol
Minimum Typical Maximum Unit Notes
Optical Power
PIN
0 dBm FC-PI Std
Min Optical Modulation
Amplitude (Peak-to-Peak)
2.125 Gb/s
OMA
49
16
µW FC-PI Std
Note 1
Min Optical Modulation
Amplitude (Peak-to-Peak)
1.0625 Gb/s
OMA
31
18
µW FC-PI Std
Note 2
Stressed Receiver Sensitivity
(OMA) 2.125 Gb/s
96 33
µW 50 µm fiber,
FC-PI Std
109 25
µW 62.5 µm fiber,
FC-PI Std
Note 3
Stressed Receiver Sensitivity
(OMA) 1.0625 Gb/s
55 19
µW 50 µm fiber,
FC-PI Std
67 16
µW 62.5 µm fiber,
FC-PI Std
Note 4
Return Loss
12
dB FC-PI Std
Signal Detect – De-Assert
Signal Detect – Assert
Signal Detect Hysteresis
PD
PA
PA – PD
–31
0.5
–17.5
dBm Note 5
–17.0
dBm Note 5
2.3 5
dB
Notes:
1. An OMA of 49 uW is approximately equal to an average power of -15dBm, and the OMA typical of 16 uW is approximately equal to an average
power of -20 dBm, assuming an Extinction Ratio of 9dB. Sensitivity measurements are made at eye center with BER = 10E-12.
2. An OMA of 31 is approximately equal to an average power of –17 dBm assuming an Extinction Ratio of 9 dB.
3. 2.125 Gb/s Stressed receiver vertical eye closure penalty (ISI) min is 1.26 dB for 50 µm fiber and 2.03 dB for 62.5 µm fiber. Stressed receiver DCD
component min (at TX) is 40 ps.
4. 1.0625 Gb/s Stressed receiver vertical eye closure penalty (ISI) min is 0.96 dB for 50 µm fiber and 2.18 dB for 62.5 µm fiber. Stressed receiver DCD
component min (at TX) is 80 ps.
5. These average power values are specified with an Extinction Ratio of 9dB. The Signal Detect circuitry responds to OMA (peak-to-peak) power,
not to average power.
11
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