HFBR-5104 Agilent(Hewlett-Packard), HFBR-5104 Datasheet

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HFBR-5104

Manufacturer Part Number
HFBR-5104
Description
FDDI/ 100 Mbps ATM/ and Fast Ethernet Transceivers in Low Cost 1x9 Package Style
Manufacturer
Agilent(Hewlett-Packard)
Datasheet
1.HFBR-5104.pdf (22 pages)
126
FDDI, 100 Mbps ATM, and
Fast Ethernet Transceivers
in Low Cost 1x9 Package Style
Technical Data
Features
• Full Compliance with the
• Full Compliance with the
• Full Compliance with the
• Full Compliance with the
• Very Low Cost 800 nm
• Multisourced 1x9 Package
• Wave Solder and Aqueous
• Manufactured in an ISO
Applications
• Multimode Fiber Backbone
• Multimode Fiber Wiring
• Very Low Cost Multimode
*ST is a registered trademark of AT&T Lightguide Cable Connectors.
Optical Performance
Requirements of the FDDI
PMD Standard
FDDI LCF-PMD Standard
Optical Performance
Requirements of the ATM
100 Mbps Physical Layer
Optical Performance
Requirements of
100 Base-FX Version of
IEEE 802.3u
Alternative with FDDI and
ATM Compliant Signaling
Style with Choice of Duplex
SC or Duplex ST*
Receptacle
Wash Process Compatible
9002 Certified Facility
Links
Closet to Desktop Links
Fiber 800 nm Links from
Wiring Closet to Desktop
Description
The HFBR-5100 family of trans-
ceivers from Hewlett-Packard
provide the system designer with
products to implement a range of
FDDI and ATM (Asynchronous
Transfer Mode) designs at the
100 Mbps/125 MBd rate.
The transceivers are all supplied
in the new industry standard 1x9
SIP package style with either a
duplex SC or a duplex ST*
connector interface.
FDDI PMD, ATM and Fast
Ethernet 2000 m Backbone
Links
The HFBR-5103/-5103T are
1300 nm products with optical
performance compliant with the
FDDI PMD standard. The FDDI
PMD standard is ISO/IEC 9314-3:
1990 and ANSI X3.166 - 1990.
These transceivers for 2000 meter
multimode fiber backbones are
supplied in the small 1x9 duplex
SC or ST package style for those
designers who want to avoid the
larger MIC/R (Media Interface
Connector/Receptacle) defined in
the FDDI PMD standard.
Hewlett-Packard also provides
several other FDDI products
compliant with the PMD and SM-
PMD standards. These products
HFBR-5103/-5103T
HFBR-5104/-5104T
HFBR-5105/-5105T
are available with MIC/R, ST
FC connector styles. They are
available in the 1x13 and 2x11
transceiver and 16 pin
transmitter/receiver package
styles for those designs that
require these alternate
configurations.
The HFBR-5103/-5103T is also
useful for both ATM 100 Mbps
interfaces and Fast Ethernet 100
Base-FX interfaces. The ATM
Forum User-Network Interface
(UNI) Standard, Version 3.0,
defines the Physical Layer for
100 Mbps Multimode Fiber
Interface for ATM in Section 2.3
to be the FDDI PMD Standard.
Likewise, the Fast Ethernet
Alliance defines the Physical
Layer for 100 Base-FX for Fast
Ethernet to be the FDDI PMD
Standard.
Note: The “T” in the product numbers
indicates a transceiver with a duplex ST
connector receptacle.
Product numbers without a “T” indicate
transceivers with a duplex SC connector
receptacle.
1300 nm 2000 m
800 nm 500 m
1300nm 500 m
5965-9727E (5/97)
©
and

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HFBR-5104 Summary of contents

Page 1

... FDDI PMD standard. Hewlett-Packard also provides several other FDDI products compliant with the PMD and SM- PMD standards. These products HFBR-5103/-5103T 1300 nm 2000 m HFBR-5104/-5104T 800 nm 500 m HFBR-5105/-5105T 1300nm 500 m © are available with MIC/R, ST and FC connector styles. They are ...

Page 2

... Transmitter Sections The transmitter sections of the HFBR-5103 and HFBR-5105 series utilize 1300 nm Surface Emitting InGaAsP LEDs and the HFBR-5104 series uses a low cost 820 nm AlGaAs LED. These LEDs are packaged in the optical subassembly portion of the transmitter section. They are driven by a custom silicon IC ...

Page 3

... 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. 128 DUPLEX ST RECEPTACLE PIN PHOTODIODE PREAMP IC OPTICAL SUBASSEMBLIES LED 39.12 12.70 MAX. (1.540) (0.500) AREA RESERVED FOR PROCESS PLUG 18.52 + 0.25 1.27 (0.729) - 0.05 + 0.010 4.14 (0.050 - 0.002 (0.163) NOTE 1 17.32 (0.682) 23.24 15.88 (0.915) (0.625) HFBR-5103 fig 2 12.70 (0.500) ) 20.32 23.32 (0.800) (0.918) ...

Page 4

... HFBR-5103T DATE CODE (YYWW) SINGAPORE 12.0 (0.471) 3.2 (0.126) (0.022) NOTE 1 20.32 [(8x (2.54/0.100)] (0.800) 22.86 21.4 (0.900) (0.843) 3.6 (0.142) NOTE 1: PHOSPHOR BRONZE IS THE BASE MATERIAL FOR THE POSTS & PINS WITH TIN LEAD OVER NICKEL PLATING. DIMENSIONS IN MILLIMETERS (INCHES). Figure 2a. ST Package Outline Drawing. ...

Page 5

... Hewlett-Packard LED technology has produced 800 nm LED and 1300 nm LED devices with lower aging characteristics than normally associated with these 14 12 HFBR-5103, 62.5/125 µm 10 HFBR-5104, 62.5/125 µm HFBR-5103, 8 50/125 µm 6 HFBR-5104, 50/125 µ HFBR-5105, HFBR-5105, 62.5/125 µm 50/125 µm 0 0.15 0.5 1.0 1.5 2.0 2.5 3.0 FIBER OPTIC CABLE LENGTH (km) Figure 4 ...

Page 6

... EIA/TIA-568-A Commercial Building Telecom- munications Cabling Standard per SP-2840. The HFBR-5104 series 800 nm transceiver curve in Figure 4 was generated based on extensive empirical test data of typical 800 nm transmitter and receiver performance. The curve includes the effect of typical fiber attenua- tion, plus receiver sensitivity loss ...

Page 7

... Hewlett-Packard recommends that normal static precautions be taken in the handling and assembly of these transceivers to prevent damage which may be induced by electrostatic discharge (ESD). The HFBR- 5100 series of transceivers meet MIL-STD-883C Method 3015.4 Class 2 products. Care should be used to avoid shorting the receiver data or signal detect outputs directly to ground without proper current limiting impedance ...

Page 8

This recommenda- tion is in keeping with good high frequency board layout practices. Board Layout - Hole Pattern ...

Page 9

NOTE 1: MINIMUM DISTANCE FROM FRONT OF CONNECTOR TO THE PANEL FACE. Figure 8a. Recommended Common Mechanical Layout for SC and ST 1x9 Connectored Transceivers. 134 42.0 24.8 9.53 (NOTE ...

Page 10

... TRANSMITTER OUTPUT OPTICAL C CENTER WAVELENGTH –nm HFBR-5103 FDDI TRANSMITTER TEST RESULTS OF , AND t ARE CORRELATED AND C r/f COMPLY WITH THE ALLOWED SPECTRAL WIDTH AS A FUNCTION OF CENTER WAVELENGTH FOR VARIOUS RISE AND FALL TIMES. Figure 9. Transmitter Output Optical Spectral Width (FWHM) vs. Transmitter Output Optical Center Wavelength and Rise/Fall Times ...

Page 11

... Singapore location which is an ISO 9002 certified facility. Ordering Information The HFBR-5103/-5103T and HFBR-5105/-5105T 1300 nm products and the HFBR-5104/ -5104T 800 nm products are avail- able for production orders through the Hewlett-Packard Component Field Sales Offices and Authorized Distributors world wide. ...

Page 12

... HFBR-0305 - ATM Evaluation Kit This kit consists of one HFBR- 5205, one 1x13 to 1x9 pinout adapter card, and one three meter duplex SC to duplex ST 5 HFBR-5103/-5104/-5105 ...

Page 13

... ANS – MAX IS THE MAXIMUM SIGNAL – DETECT DEASSERTION TIME FOR THE STATION. ANS – MAX SHALL NOT EXCEED 350 µs. THE DEFAULT VALUE OF AS – MAX IS 350 µs. Figure 12. Signal Detect Thresholds and Timing. HFBR-5103, -5104, and -5105 Series Absolute Maximum Ratings Parameter ...

Page 14

... HFBR-5103, -5104 and -5105 Series Recommended Operating Conditions Parameter Ambient Operating Temperature Supply Voltage Data Input Voltage - Low Data Input Voltage - High Data and Signal Detect Output Load Transmitter Electrical Characteristics ( 4. 5. Parameter Supply Current Power Dissipation ...

Page 15

... HFBR-5103/-5103T Transmitter Optical Characteristics ( 4. 5. Parameter Output Optical Power 62.5/125 0.275 Fiber EOL Output Optical Power 50/125 0.20 Fiber Optical Extinction Ratio Output Optical Power at Logic “0” State Center Wavelength Spectral Width - FWHM ...

Page 16

... HFBR-5103/-5103T Receiver Optical and Electrical Characteristics ( 4. 5. Parameter Input Optical Power Minimum at Window Edge Input Optical Power Minimum at Eye Center Input Optical Power Maximum Operating Wavelength Duty Cycle Distortion Contributed by the Receiver Data Dependent Jitter ...

Page 17

... HFBR-5104/-5104T Transmitter Optical Characteristics ( 4. 5. Parameter Output Optical Power 62.5/125 0.275 Fiber EOL Output Optical Power 50/125 0.20 Fiber Optical Extinction Ratio Output Optical Power at Logic “0” State Center Wavelength Spectral Width - FWHM ...

Page 18

... HFBR-5104/-5104T Receiver Optical and Electrical Characteristics ( 4. 5. Parameter Input Optical Power Minimum at Window Edge Input Optical Power Minimum at Eye Center Input Optical Power Maximum Operating Wavelength Systematic Jitter Contributed by the Receiver Random Jitter Contributed by the Receiver ...

Page 19

... HFBR-5105/-5105T Transmitter Optical Characteristics ( 4. 5. Parameter Output Optical Power 62.5/125 0.275 Fiber EOL Output Optical Power 50/125 0.20 Fiber Optical Extinction Ratio Output Optical Power at Logic “0” State Center Wavelength Spectral Width - FWHM ...

Page 20

... HFBR-5105/-5105T Receiver Optical and Electrical Characteristics ( 4. 5. Parameter Input Optical Power Minimum at Window Edge Input Optical Power Minimum at Eye Center Input Optical Power Maximum Operating Wavelength Duty Cycle Distortion Contributed by the Receiver Data Dependent Jitter ...

Page 21

These optical power values are measured with the following conditions: • The Beginning of Life (BOL) to the End of Life (EOL) optical power degradation is typically 1.5 dB per the industry convention for long wavelength LEDs. The actual ...

Page 22

... BER requirement is -12 tightened and the minimum window time-width test condition is adjusted to 4 reflect the HFBR-5104 transmitter contributed jitter values per the specification table. 21. All conditions of Note 20 apply except that the measurement is made at the center of the symbol with no window time-width ...

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