Agilent Technologies HFBR 5203 Technical Data Manual Download

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Figure 10. Relative Input Optical Power vs. Eye Sampling
Time Position.

Figure 9. Transmitter Output Optical Spectral Width
(FWHM) vs. Transmitter Output Optical Center
Wavelength and Rise/Fall Times.

Regulatory Compliance Table

Feature

Test Method

Performance

Electrostatic Discharge

MIL-STD-883C

Meets Class 2 (2000 to 3999 Volts)

(ESD) to the Electrical

Method 3015.4

Withstand up to 2200 V applied between electrical

Pins

pins.

Electrostatic Discharge

Variation of

Typically withstand at least 25 kV without damage

(ESD) to the Duplex SC

IEC 801-2

when the Duplex SC Connector Receptacle

Receptacle

is contacted by a Human Body Model probe.

Electromagnetic

FCC Class B

Transceivers typically provide a 13 dB margin

Interference (EMI)

CENELEC EN55022

(with duplex SC receptacle) or a 9 dB margin

Class B (CISPR 22B)

(with duplex ST receptacles) to the noted

VCCI Class 2

standard limits when tested at a certified test
range with the transceiver mounted to a circuit
card without a chassis enclosure.

Immunity

Variation of IEC 801-3

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.

RELATIVE INPUT OPTICAL POWER (dB)

EYE SAMPLING TIME POSITION (ns)

-3

-1

-2

CONDITIONS:
1.T

= 25° C

2. V

= 5 Vdc

3. INPUT OPTICAL RISE/FALL TIMES = 1.0/2.1 ns.
4. INPUT OPTICAL POWER IS NORMALIZED TO
CENTER OF DATA SYMBOL.
5. NOTE 16 AND 17 APPLY.

HFBR-5203/-5204/-5205

SERIES

200

100

– TRANSMITTER OUTPUT OPTICAL

CENTER WAVELENGTH –nm

1280

1300

1320

180

160

140

120

1360

1340

∆λ

– TRANSMITTER OUTPUT OPTICAL

SPECTRAL WIDTH (FWHM) –nm

1.0

1.5

2.5

3.0

2.0

HFBR-5205 TRANSMITTER TEST RESULTS
OF

∆λ

AND t

r/f

ARE CORRELATED AND

COMPLY WITH THE ALLOWED SPECTRAL WIDTH
AS A FUNCTION OF CENTER WAVELENGTH FOR
VARIOUS RISE AND FALL TIMES.

1260

r/f

– TRANSMITTER

OUTPUT OPTICAL
RISE/FALL TIMES – ns

3.0

Summary of Contents for HFBR 5203

Page 1: ...ecification This physical layer is defined in the ATM Forum User Network Inter face UNI Specification Version 3 0 This document references the ANSI T1E1 2 specification for the details of the interface for 2000 meter multimode fiber backbone links Selected versions of these transceivers may be used to implement the ATM Forum UNI Physical Layer Interface at the 155 Mbps 194 MBd rate The ATM 100 Mbp...

Page 2: ...l understanding and design trade offs associated with these transceivers You can con tact them through your Agilent sales representative Figure 1 Block Diagram DATA OUT SIGNAL DETECT OUT DATA IN ELECTRICAL SUBASSEMBLY QUANTIZER IC DRIVER IC TOP VIEW PIN PHOTODIODE DUPLEX SC RECEPTACLE OPTICAL SUBASSEMBLIES LED PREAMP IC DIFFERENTIAL SINGLE ENDED DIFFERENTIAL uses a low cost 800 nm AlGaAs LED These...

Page 3: ...S PLUG 12 70 0 500 25 40 1 000 MAX 12 70 0 500 10 35 0 407 MAX 0 25 0 05 0 010 0 002 3 30 0 38 0 130 0 015 HFBR 5XXX DATE CODE YYWW SINGAPORE 2 92 0 115 18 52 0 729 4 14 0 163 20 32 0 800 8x 2 54 100 23 55 0 927 16 70 0 657 17 32 0 682 20 32 0 800 23 32 0 918 0 46 0 018 NOTE 1 9x ø NOTE 1 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 LE...

Page 4: ... CODE YYWW SINGAPORE 3 2 0 126 2 6 0 102 φ 22 86 0 900 20 32 0 800 8x 2 54 0 100 17 4 0 685 21 4 0 843 20 32 0 800 3 6 0 142 1 3 0 051 23 38 0 921 18 62 0 733 NOTE 1 PHOSPHOR BRONZE IS THE BASE MATERIAL FOR THE POSTS PINS WITH TIN LEAD OVER NICKEL PLATING DIMENSIONS IN MILLIMETERS INCHES 0 46 0 022 NOTE 1 φ 1 VEE 2 RD 3 RD 4 SD 5 VCC 6 VCC 7 TD 8 TD 9 VEE TOP VIEW N C N C Figure 2a ST Package Outl...

Page 5: ...e 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 When used in 155 Mbps SONET OC 3 applications the perform ance of the 1300 nm transceivers HFBR 5204 5205 is guaranteed to the full conditions listed in individual product specification tables The transceivers may be used for other applications at signaling rates...

Page 6: ...th either industry standard wave or hand solder processes Shipping Container The transceiver is packaged in a shipping container designed to The jitter specifications stated in the following 1300 nm transceiver specification tables are derived from the values in Table B1 of Annex B They represent the worst case jitter contribution that the transceivers are allowed to make to the overall system jit...

Page 7: ...nd Planes It is important to take care in the layout of your circuit board to achieve optimum performance from these transceivers Figure 7 provides a good example of a schematic for a power supply decoupling circuit that works well with these parts It is further recommended that a contiguous ground plane be provided in the circuit board directly under the transceiver to provide a low inductance gr...

Page 8: ...e various international regulations governing certification of Infor mation Technology Equipment See the Regulatory Compliance Table for details Additional information is available from your Agilent sales representative Electrostatic Discharge ESD There are two design cases in which immunity to ESD damage is important The first case is during handling of the transceiver prior to mounting it on the...

Page 9: ...assis the duplex ST 1x9 transceiver emissions will be identical to the duplex SC 1x9 transceiver emissions Immunity Equipment utilizing these trans ceivers will be subject to radio frequency electromagnetic fields in some environments These transceivers have a high immunity to such fields For additional information regard ing EMI susceptibility ESD and conducted noise testing proce dures and resul...

Page 10: ...he noted VCCI Class 2 standard limits when tested at a certified test range with the transceiver mounted to a circuit card without a chassis enclosure Immunity Variation of IEC 801 3 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 RELATIVE INPUT OPTICAL POWER dB 0 EYE SAMPLING TIM...

Page 11: ...n kits for the 1x9 transceivers The purpose of these kits is to provide the necessary materials to evaluate the perform ance of the HFBR 520X family in a pre existing 1x13 or 2x11 pinout system design configura tion or when connectored to various test equipment 1 HFBR 0305 ATM Evaluation Kit This kit consists of one HFBR 5205 one 1 x 13 to 1 x 9 pin out adapter card and one three meter duplex SC t...

Page 12: ... Data Input Voltage High VIH VCC 1 165 0 880 V Data and Signal Detect Output Load RL 50 Ω Note 2 HFBR 5203 5204 and 5205 Series Absolute Maximum Ratings Parameter Symbol Min Typ Max Unit Reference Storage Temperature TS 40 100 C Lead Soldering Temperature TSOLD 260 C Lead Soldering Time tSOLD 10 sec Supply Voltage VCC 0 5 7 0 V Data Input Voltage VI 0 5 VCC V Differential Input Voltage VD 1 4 V No...

Page 13: ...ll Time tf 0 35 2 2 ns Note 7 Signal Detect Output Voltage Low VOL VCC 1 840 1 620 V Note 6 Signal Detect Output Voltage High VOH VCC 1 045 0 880 V Note 6 Signal Detect Output Rise Time tr 0 35 2 2 ns Note 7 Signal Detect Output Fall Time tf 0 35 2 2 ns Note 7 Agilent offers two such compatible Duplex SC connec tored jumper cable assemblies to assist you in the evaluation of these transceiver prod...

Page 14: ...oducts These cables may be purchased from Agilent with the following part numbers 1 HFBR XXX001 A duplex cable 1 meter long assembled with 62 5 125 µm fiber and Duplex Push Pull ST connector plugs on both ends 2 HFBR XXX010 A duplex cable 10 meters long assembled with 62 5 125 µm fiber and Duplex Push Pull ST connector plugs on both ends ...

Page 15: ...t Hysteresis PA PD 1 5 dB Signal Detect Assert Time 0 100 µs Note 22 off to on Signal Detect Deassert Time 0 350 µs Note 23 on to off HFBR 5203 5203T Transmitter Optical Characteristics TA 0 C to 70 C VCC 4 75 V to 5 25 V Parameter Symbol Min Typ Max Unit Reference Output Optical Power BOL PO 17 12 dBm avg Note 9 62 5 125 µm NA 0 275 Fiber EOL 20 Output Optical Power BOL PO 20 8 12 dBm avg Note 9 ...

Page 16: ...ct Hysteresis PA PD 1 5 dB Signal Detect Assert Time 0 55 100 µs Note 22 off to on Signal Detect Deassert Time 0 110 350 µs Note 23 on to off HFBR 5204 5204T Transmitter Optical Characteristics TA 0 C to 70 C VCC 4 75 V to 5 25 V Parameter Symbol Min Typ Max Unit Reference Output Optical Power BOL PO 21 14 dBm avg Note 8 62 5 125 µm NA 0 275 Fiber EOL 22 Output Optical Power BOL PO 24 5 14 dBm avg...

Page 17: ... 23 5 Optical Extinction Ratio 0 001 0 03 Note 10 50 35 dB Output Optical Power at PO 0 45 dBm avg Note 11 Logic 0 State Center Wavelength λC 1270 1310 1380 nm Note 24 Figure 9 Spectral Width FWHM λ 137 nm Note 24 nm RMS 58 nm RMS Figure 9 Optical Rise Time tr 0 6 1 0 3 0 ns Note 12 24 Figure 9 Optical Fall Time tf 0 6 2 1 3 0 ns Note 12 24 Figure 9 Systematic Jitter Contributed SJ 0 04 1 2 ns p p...

Page 18: ... dissipation is calcu lated as the sum of the products of supply voltage and currents minus the sum of the products of the output voltagesandcurrents 6 This value is measured with respect to VCC with the output terminated into 50 Ω connected to VCC 2 V 7 The output rise and fall times are measured between 20 and 80 levels with the output connected to VCC 2 V through 50 Ω 8 These optical power valu...

Page 19: ...put Optical Power dynamic range from the minimum level with a window time width to the maximum level is the range over which the receiver is guaranteed to provide output data with a Bit Error Ratio BER better than or equal to 1 x 10 10 At the Beginning of Life BOL Over the specified operating temperature and voltage ranges Input is a 155 52 MBd 223 1 PRBS data pattern with 72 1 s and 72 0 s insert...

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