HFBR5903E Agilent, HFBR5903E Datasheet

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HFBR5903E

Manufacturer Part Number
HFBR5903E
Description
Manufacturer
Agilent
Datasheet

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Part Number:
HFBR5903E
Manufacturer:
AGILENT
Quantity:
10
Description
The HFBR-5900 family of trans-
ceivers from Agilent provide the
system designer with products
to implement a range of FDDI
and ATM (Asynchronous
Transfer Mode) designs at the
100 Mb/s-
125 MBd rate.
The transceivers are all supplied
in the new industry standard
2 x 5 DIP style with a MT-RJ
fiber connector interface.
FDDI PMD, ATM and Fast Ethernet
2 km Backbone Links
The HFBR-5903 is a 1300 nm
product 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 2 km
multimode fiber backbones are
supplied in the small 2 x 5 MT-
RJ package style for those
designers who want to avoid the
larger MIC/R (Media Interface
Connector/Receptacle) defined
in the FDDI PMD standard.
Agilent also provides several
other FDDI products compliant
with the PMD and SM-PMD
standards. These products are
available with MIC/R, ST
and FC connector styles. They
are available in the 1 x 9, 1 x 13
©
, SC
Agilent HFBR-5903/5903E/5903A
FDDI, Fast Ethernet Transceivers
in 2 x 5 Package Style
Data Sheet
and 2 x 11 transceiver and 16
pin transmitter/receiver package
styles for those designs that
require these alternate
configurations.
The HFBR-5903 is also useful for
both ATM 100 Mb/s 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 Mb/s
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.
ATM applications for physical
layers other than 100 Mb/s
Multimode Fiber Interface are
supported by Agilent. Products
are available for both the single-
mode and the multimode fiber
SONET OC-3c (STS-3c), SDH
(STM-1) ATM interfaces and the
155 Mb/s-194 MBd multimode
fiber ATM interface as specified
in the ATM Forum UNI.
Contact your Agilent sales
representative for information
on these alternative FDDI and
ATM products.
Features
• Multisourced 2 x 5 package style
• Single +3.3 V power supply
• Wave solder and aqueous wash
• Manufactured in an ISO 9002
• Full compliance with the optical
• Full compliance with the FDDI
• Full compliance with the optical
• Full compliance with the optical
Applications
• Multimode fiber backbone links
• Multimode fiber wiring closet to
Ordering Information
The HFBR-5903 1300 nm
product is available for
production orders through the
Agilent Component Field Sales
Offices and Authorized
Distributors world wide.
HFBR-5903 = 0°C to +70°C
HFBR-5903E = 0°C to +70°C
Shield
HFBR-5903A = -40°C to +85°C
with MT-RJ receptacle
process compatible
certified facility
performance requirements of the
FDDI PMD standard
LCF-PMD standard
performance requirements of the
ATM 100 Mb/s physical layer
performance requirements of
100 Base-FX version of
IEEE 802.3u
desktop links
No Shield
Extended
No Shield.

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HFBR5903E Summary of contents

Page 1

... Description The HFBR-5900 family of trans- ceivers from Agilent provide the system designer with products to implement a range of FDDI and ATM (Asynchronous Transfer Mode) designs at the 100 Mb/s- 125 MBd rate. The transceivers are all supplied in the new industry standard DIP style with a MT-RJ fiber connector interface ...

Page 2

... EMI fields. The outer housing is electrically conductive. The MT-RJ port is molded of filled nonconductive plastic to provide mechanical strength and electrical isolation. The solder posts of the Agilent design are isolated from the internal circuit of the transceiver. The transceiver is attached to a printed circuit board with the ...

Page 3

OVERALL RECEPTACLE CENTER LINE) Case Temperature Measurement Point 13.59 9.6 (0.378) (0.535) MAX. MAX. 12 (0.472) 9.3 9.8 (0.366) (0.386) MAX. MAX. Ø 1.07 (0.042) DIMENSIONS IN MILLIMETERS (INCHES) NOTES: 1. THIS PAGE DESCRIBES THE MAXIMUM ...

Page 4

RECEIVER SIGNAL GROUND RECEIVER POWER SUPPLY SIGNAL DETECT RECEIVER DATA OUT BAR RECEIVER DATA OUT Figure 3. Pin Out Diagram. Pin Descriptions: Pin 1 Receiver Signal Ground V RX: EE Directly connect this pin to the receiver ground plane. Pin ...

Page 5

... Contact your Agilent sales representative for additional details. Figure 4 was generated with a Agilent fiber optic link model containing the current industry conventions for fiber cable specifications and the FDDI PMD and LCF-PMD optical parameters. These parameters ...

Page 6

... Annex E allocation example. In practice the typical contribution of the Agilent trans- ceivers is well below these maximum allowed amounts. Recommended Handling Precautions Agilent recommends that normal static precautions be taken in ...

Page 7

... Figures 7 and 8 show two recommended termination schemes. Board Layout - Hole Pattern The Agilent transceiver complies with the circuit board “Common Transceiver Footprint” hole pattern defined in the original multisource announcement which defined the package style ...

Page 8

... Information Technology Equipment. See the Regulatory Compliance Table for details. Additional information is available from your Agilent sales representative. Ø 1.4 ±0.1 KEEP OUT AREA (0.055±0.004) FOR PORT PLUG 7 (0.276) 10 ...

Page 9

... 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. Compliant per Agilent testing under single fault conditions. TUV Certification: LED Class 1 Immunity Equipment utilizing these ...

Page 10

TRANSMITTER 120 OUTPUT OPTICAL 3.5 RISE/FALL TIMES - ns 100 1200 1300 1320 1340 1360 λ - TRANSMITTER OUTPUT OPTICAL C CENTER WAVELENGTH - nm HFBR-5903 FDDI ...

Page 11

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 ...

Page 12

Transmitter Optical Characteristics HFBR-5903/5903E (T = 0°C to +70° HFBR-5903A (T = -40°C to +85° Parameter Output Optical Power BOL 62.5/125 µ 0.275 Fiber EOL Output Optical Power BOL 50/125 µ 0.20 ...

Page 13

Receiver Optical and Electrical Characteristics HFBR-5903/5903E (T = 0°C to +70° HFBR-5903A (T = -40°C to +85° Parameter Input Optical Power Minimum at Window Edge Input Optical Power Minimum at Eye Center Input Optical Power ...

Page 14

... The average power value can be converted to a peak power value by adding 3 dB. Higher output optical power transmitters are available on special request. Please consult with your local Agilent sales representative for further details. 12. The Extinction Ratio is a measure of the modulation depth of the optical signal. The data “ ...

Page 15

All conditions of Note 19 apply except that the measurement is made at the center of the symbol with no window time-width. 21. This value is measured during the transition from low to high levels of input optical power. ...

Page 16

... China: 10800 650 0017 Hong Kong: (+65) 6271 2451 India, Australia, New Zealand: (+65) 6271 2394 Japan: (+81 3) 3335-8152(Domestic/International), or 0120-61-1280(Domestic Only) Korea: (+65) 6271 2194 Malaysia, Singapore: (+65) 6271 2054 Taiwan: (+65) 6271 2654 Data subject to change. Copyright © 2002 Agilent Technologies, Inc. Obsoletes: 5988-4673EN October 31, 2002 5988-8033EN ...

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