HFBR-5107T HP [Agilent(Hewlett-Packard)], HFBR-5107T Datasheet

HFBR-5107T

Manufacturer Part Number

HFBR-5107T

Description

100VG-AnyLAN Multimode Fiber Transceivers in Low Cost 1x9 Package Style

Manufacturer

HP [Agilent(Hewlett-Packard)]

Datasheet

1.HFBR-5107T.pdf (15 pages)

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150

100VG-AnyLAN Multimode

Fiber Transceivers in Low Cost

1x9 Package Style

Technical Data

Features

• Full Compliance with the

• Multisourced 1x9 Package

• Wave Solder and Aqueous

• Manufactured in an ISO

• 820 nm and 1300 nm LED

Applications

• Multimode Fiber Backbone

• Multimode Fiber Wiring

Description

The HFBR-5106 and HFBR-5107

series transceivers from Hewlett-

Packard provide system designers

with products to implement a

range of multimode fiber

100VG-AnyLAN physical layer

solutions. The transceivers are all

supplied in the new industry

standard 1x9 SIP package style

with a choice of duplex SC or

Optical Performance

Requirements of the IEEE

802.12

Style with Choice of Duplex

SC or ST

Wash Process Compatible

9002 Certified Facility

Based Transceivers

Links

Closet to Desktop Links

connector interface.

Receptacles

100VG-AnyLAN Backbone

Links

The HFBR-5106/-5106T are 1300

nm products with optical

performance compliant with the

100VG-AnyLAN PMD developed

by IEEE 802.12. These

transceivers are suitable for link

lengths up to 2 km.

Alternative 800 nm,

Lower Cost 500 m

Desktop Links

The HFBR-5107 is a lower cost

800 nm alternative to the HFBR-

5106 for 100VG-AnyLAN links

from the wiring closet to the

desktop. It complies with the

performance requirements of

802.12 as implemented by

Hewlett-Packard at 800 nm

wavelength. This transceiver will

transfer the full range of

100VG-AnyLan Signals at the

required 1x10

over distances up to 500 meters

using 62.5/125 m multimode

fiber cables. This product is

intended for use in cost sensitive

applications where the benefits of

fiber optic links are important.

Transmitter Sections

The transmitter sections of the

HFBR-5106 utilize 1300 nm

–8

Bit Error Rate

HFBR-5106/5106T

HFBR-5107/5107T

Surface Emitting InGaAsP LEDs

and the HFBR-5107 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

which converts differential PECL

logic signals, ECL referenced

(shifted) to a +5 Volt supply, into

an analog LED drive current.

Receiver Sections

The receiver section of the

HFBR-5106 utilizes InGaAs PIN

photodiodes coupled to a custom

silicon transimpedance preampli-

fier IC. The HFBR-5107 series

uses the same preamplifier IC in

conjunction with an inexpensive

silicon PIN photodiode. These are

packaged in the optical

subassembly portion of the

receiver.

1300 nm

820 nm

5965-7785E (4/97)

Related parts for HFBR-5107T

HFBR-5107T Summary of contents

Page 1

... Alternative 800 nm, Lower Cost 500 m Desktop Links The HFBR-5107 is a lower cost 800 nm alternative to the HFBR- 5106 for 100VG-AnyLAN links from the wiring closet to the desktop. It complies with the performance requirements of 802.12 as implemented by Hewlett-Packard at 800 nm wavelength ...

Page 2

These PlN/preamplifier combina- tions are coupled to a custom quantizer IC which provides the final pulse shaping for the logic output and Signal Detect function. The data output is differential. The signal detect output is single-ended. Both data and signal ...

Page 3

... ELECTRICAL SUBASSEMBLY DIFFERENTIAL DATA OUT SINGLE-ENDED SIGNAL QUANTIZER IC DETECT OUT PREAMP DIFFERENTIAL DATA IN DRIVER IC TOP VIEW Figure 1a. ST Block Diagram. 25.40 MAX. (1.000) HFBR-510X DATE CODE (YYWW) COUNTRY OF ORIGIN 10.35 MAX. + 0.08 (0.407) 0.75 - 0.05 3.30 ± 0.38 + 0.003 ( ) 0.030 (0.130 ± 0.015) - 0.002 2.92 (0.115) 0.46 ø (9x) (0.018) NOTE 1 23 ...

Page 4

... MAX. (1.000) HFBR-5106T HFBR-510XT DATE CODE (YYWW) DATE CODE (YYWW) SINGAPORE COUNTRY OF ORIGIN 12.0 MAX. (0.471) 3.2 (0.126) 20.32 ± 0.38 0.46 (0.022) 2.6 NOTE 1 (0.102) 20.32 [(8x (2.54/0.100)] 17.4 (0.800) (0.685) 21.4 22.86 (0.843) (0.900) 3.6 (0.142) 1.3 (0.051) 23.38 (0.921) NOTE 1: PHOSPHOR BRONZE IS THE BASE MATERIAL FOR THE POSTS & PINS WITH TIN LEAD OVER NICKEL PLATING. ...

Page 5

... IEEE committees, including the ANSI X3T12 committee, to establish the optical performance requirements for various fiber optic interface standards. The cable parameters used come from the ISO/IEC JTCI/SC 25/WG3 Generic Cabling for Customer 14 12 HFBR-5106, 62.5/125 µm 10 HFBR-5107, 62.5/125 µ HFBR-5107, 4 50/125 µm HFBR-5106, 2 50/125 µ ...

Page 6

... Table 27 of section 18.9 when driven by circuits optimized for these link applications. The Active Output Specifications of the 100VG-AnyLAN standard are met by the HFBR-5106. The HP 1300 nm receivers tolerate the worst case input optical response time and systematic jitter shown in Table 27 of Section 18.9. The Active Input Specification of the IEEE 802 ...

Page 7

Regulatory Compliance Table Feature Electrostatic Discharge MIL-STD-883C (ESD) to the Electrical Pins Method 3015.4 Electrostatic Discharge Variation of (ESD) to the Duplex SC IEC 801-2 Receptacle Electromagnetic FCC Class B Interference (EMC) CENELEC CEN55022 VCCI Class 2 Immunity Variation of ...

Page 8

TOP VIEW Figure 8. Recommended Board Layout Hole Pattern 9.53 12.0 (NOTE 1) 0.51 12.09 11.1 6.79 0. ...

Page 9

... Control Signal 3 (CS3) Control Signal 4 (CS4) Control Signal 5 (CS5) 158 Ordering Information The HFBR-5106 and HFBR-5106T 1300 nm products and HFBR-5107 and HFBR-5107T 820 nm devices are available for production orders through the Hewlett-Packard Component Field Sales Offices and Authorized Distributors worldwide. Applications Support Material ...

Page 10

AVERAGE OPTICAL POWER AT Al (dBm -45 dB HIGH_LIGHT LOW_LIGHT AVERAGE OPTICAL POWER AT Al (dBm VALID IEEE 802.12 OPTICAL SIGNALS -45 dB HIGH_LIGHT LOW_LIGHT Figure 10. VALID IEEE 802.12 OPTICAL SIGNALS ...

Page 11

... HFBR-5106, -5107 Series Absolute Maximum Ratings Parameter Storage Temperature Lead Soldering Temperature Lead Soldering Time Supply Voltage Data Input Voltage Differential Input Voltage Output Current Recommended Operating Conditions Parameter Ambient Operating Temperature Supply Voltage Data Input Voltage - Low Data Input Voltage - High ...

Page 12

... Logic “0” State Center Wavelength Spectral Width - FWHM Optical Rise Time Optical Fall Time Systematic Jitter Contributed by the Transmitter Random Jitter Contributed by the Transmitter HFBR-5106/5106T Receiver Optical and Electrical Characteristics ( 4. 5. Parameter Input Optical Power ...

Page 13

... Logic “0” State Center Wavelength Spectral Width - FWHM Optical Rise Time Optical Fall Time Systematic Jitter Contributed by the Transmitter Random Jitter Contributed by the Transmitter HFBR-5107/5107T Receiver Optical and Electrical Characteristics ( 4. 5. Parameter Input Optical Power ...

Page 14

... BER requirement is tightened -8 to 1x10 and the minimum window time-width test condition is adjusted to 5 reflect the HFBR-5107 trans- mitter contributed jitter values per the specification table. 17. All conditions of Note 16 apply except that the measurement is made at the center of the symbol with no window time-width ...

Page 15

PMD at the AI as defined in Figure 10. (The input optical power is averaged over a period more). 20. The high_light (Signal Detect) output shall be asserted ...

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