FINISAR HFD7180-001

DATA
SHEET
1/2/4/8 GBPS 850NM
PIN + PREAMP
LC ROSA PACKAGE
HFD7180-XXX
FEATURES:
LC ROSA HFD7180-413 includes
flex circuit
LC ROSA HFD7180-001 leaded
package
High performance GaAs PIN
photodiode with separate
transimpedance amplifier
The HFD7180-xxx use a high-performance GaAs PIN photo-detector packaged
with a transimpedance amplifier designed to meet performance requirements
for data rates up to 8.5Gbps data communication over multi-mode optical fiber
at 850nm. Applications include Ethernet, Fiber Channel and ATM protocols.
The optical assembly is designed to interface either 50µm or 62.5µm multimode fiber.
The HFD7180-xxx is designed to be paired with AOC VCSEL TOSA products
(see data sheets for HFE719x products).
Low electrical parasitic TO46
package
Data rates from 1Gbps to
8.5Gbps
Received signal strength
indicator with bandwidth select
Low bias currents and voltages
Low power dissipation
Part Number
Description
HFD7180-001
5 pin LC ROSA, with separate PD bias
HFD7180-413
5 pin LC ROSA, with separate PD bias, with flex circuit
HFD7180-XXX
1/2/4/8 GBPS 850NM PIN + PREAMP
ABSOLUTE MAXIMUM RATINGS
Parameter
Rating
Storage temperature
-40oC to +95oC
Case Operating temperature
-20o to +95oC
Lead solder temperature
260oC, 10 seconds
Power Supply Voltage
-0.5V to 4V
Incident Optical Power
+3 dBm average,
+6 dBm peak
NOTICE: Stresses greater than those listed under “Absolute
Maximum Ratings” may cause permanent damage to the
device. This is a stress rating only and functional operation
of the device at these or any other conditions above those
indicated in the operations section for extended periods of
time may affect reliability.
NOTICE: The inherent design of this component causes it
to be sensitive to electrostatic discharge (ESD). To prevent
ESD-induced damage and/or degradation to equipment,
take normal ESD precautions when handling this product.
HFD7180-XXX
ELECTRICAL-OPTICAL CHARACTERISTICS
3.0V<Vcc<3.6V, AC coupled to 50 ohm differential), -20oC<T<95oC unless otherwise specified, with flex circuit
Parameters
Test Condition
Data Rate
Symbol
DR
Supply Voltage
Supply Current
Optical Return Loss
Min.
Ω AC
coupled
PR=-12dBm
Max.
Units
8.5
Gbps
3.3
3.6
V
35
50
mA
1
dB
1
0.1
3.0
PR=0µW, RL=50
Typ.
ICC
Notes
ORL
12
λp
770
850
870
nm
Resp
0.43
0.5
0.6
A/W
PD Bias Voltage
VPD
3.0
3.3
3.6
V
Maximum Average Input
Power Before Overload
PMAX
0
+3
Vo (pk-pk)
150
260
330
mV
1,2
T
2300
3000
5300
V/W
1,2
6
7.5
11
GHz
1,2,3
20
90
KHz
1,2,3
60
Ω
Input Optical Wavelength
PD Responsivity
Differential Output
Voltage Swing
Differential Responsivity
-3dB Optical/Electrical
Bandwidth
PR=-12dBm
PR,OMA=-12dBm
RL=50 Ω AC coupled
PR,OMA=-12dBm
RL=50
Ω AC coupled
TA=25oC
BW
Low Frequency –3dB
Cutoff
BWLF
Output Impedance
Zout
40
50
S22
8
12
Optical Return Loss
F<6GHz
DR = 2.125Gbps
Sensitivity, OMA
DR = 2.125Gbps
S
DR = 2.125Gbps
Rise/Fall Time
PR OMA =-12dBm,
(20%-80%)
PR=0µW (dark)
Differential Power Supply
5MHz<F<2GHz
Rejection Ratio
PR,OMA=-12dBm
RL=50 Ω AC coupled
Group Delay
Deterministic Jitter
Random Jitter
2MHz<F<6GHz
PR,OMA=-12dBm
RL=50 Ω AC coupled
PR,OMA=-12dBm
RL=50
Ω AC coupled
TR/TF
PSRR
20
GVD
-50
1
dBm
dB
-19
-16
-18
-15
-15
-13
30
50
dBm
4
ps
2.5
dB
1,6
50
ps
7
DJTIA
20
40
ps
8
RJTIA
3
5
ps
9
HFD7180-XXX
1/2/4/8 GBPS 850NM PIN + PREAMP
times. T2TIA = T2MEASURED - T2OPTICAL
NOTES
1.
PR is the average optical power at the fiber face.
2.
PR,OMA is the peak to peak optical power at the fiber face
(Optical Modulation Amplitude)
PR ,OMA ≡
2 PR (ER − 1)
ER + 1
where ER is the extinction ratio (linear) of the optical
source.
3.
Bandwidth and Low Frequency Cutoff are measured with
a small signal sinusoidal light source with –10dBm
average power
4.
Sensitivity is measured with an optical source with an
extinction ratio of 3dB. For sensitivity measurements at 2
and 4Gbps, bandwidth limiting of the TIA is assumed to
be implemented at the front end of the post amplifier.
5.
Rise/Fall times are corrected for optical source Rise/Fall
6.
Value shown is with no external power supply filtering.
7.
Group delay is a sensitive measurement to package
interface, and includes the effects of PD, TIA and package.
Measurement is made with TO leads as short as possible.
8.
DJTIA is specified as contributed DJ by the TIA, obtained
from DJ2TIA = DJ2TOTAL - DJ2OPTICAL
9.
RJTIA is specified as contributed DJ by the TIA, obtained
from RJ2TIA = RJ2TOTAL - RJ2OPTICAL
10. The electrical performance of the ROSA is dependent
upon the quality of the electrical connection between the
TO can and the circuit board. AOC cannot guarantee all
performance specifications for parts without the flex
circuit attached.
PINOUT
PIN
HFE7180-001
PIN
HFE7180-413
1
GND (Case)
1
VCC
2
OUTN
2
Case
3
3
OUTN
4
VCC
VPD
4
OUTP
5
OUTP
5
Case
6
PD_Bias
HFD7180-XXX
INTERFACE EXAMPLE
Optional 100Ω differential termination for high impedance limiting amplifiers is shown in red
RECOMMENDED BIAS FILTER NETWORK
Note, better performance will be obtained if a ferrite bead is used in place of the inductor.
HFD7180-XXX
1/2/4/8 GBPS 850NM PIN + PREAMP
MECHANICAL DIMENSIONS HFD 7180-001
(for reference only):
Dimensions in Inches
HFD7180-XXX
MECHANICAL DIMENSIONS HFD 7180-413
(for reference only):
Dimensions in Inches
HFD7180-XXX
1/2/4/8 GBPS 850NM PIN + PREAMP
ADVANCED OPTICAL COMPONENTS
AOC CAPABILITIES
Finisar’s ADVANCED OPTICAL COMPONENTS division was
formed through strategic acquisition of key optical component suppliers. The company has led the industry in high
volume Vertical Cavity Surface Emitting Laser (VCSEL) and
associated detector technology since 1996. VCSELs have
become the primary laser source for optical data communication, and are rapidly expanding into a wide variety of sensor
applications. VCSELs’ superior reliability, low drive current,
high coupled power, narrow and circularly symmetric beam
and versatile packaging options (including arrays) are enabling
solutions not possible with other optical technologies.
ADVANCED OPTICAL COMPONENTS is also a key supplier of
Fabrey-Perot (FP) and Distributed Feedback (DFB) Lasers, and
Optical Isolators (OI) for use in single mode fiber data and
telecommunications networks
ADVANCED OPTICAL COMPONENTS’ advanced capabilities
include:
1, 2, 4, 8, and 10Gbps serial VCSEL solutions
1, 2, 4, 8, and 10Gbps serial SW DETECTOR solutions
VCSEL and detector arrays
1, 2, 4, 8, and 10Gbps FP and DFB solutions at 1310 and
1550nm
1, 2, 4, 8, and 10Gbps serial LW DETECTOR solutions
Optical Isolators from 1260 to 1600nm range
Laser packaging in TO46, TO56, and Optical
subassemblies with SC, LC, and MU interfaces for
communication networks
VCSELs operating at 670nm, 780nm, 980nm, and 1310nm
in development
LOCATION
Allen, TX - Business unit headquarters, VCSEL wafer
growth, wafer fabrication and TO package assembly.
Fremont, CA – Wafer growth and fabrication of 1310 to
1550nm FP and DFB lasers.
Sensor packages include surface mount, various plastics,
chip on board, chipscale packages, etc.
Custom packaging options
Shanghai, PRC – Optical passives assembly, including
optical isolators and splitters.
SALES AND SERVICE
Finisar’s ADVANCED OPTICAL COMPONENTS division serves its
customers through a worldwide network of sales offices and
distributors. For application assistance, current specifications,
pricing or name of the nearest Authorized Distributor, contact
a nearby sales office or call the number listed below.
Phone:1-866-MY-VCSEL USA (toll free)
1-214-509-2700 USA (Direct dial)
44 (0) 174 336 5533 Europe
886-935-409898 China & Taiwan
81-90-4437-1130 Japan
82-11-220-6153 Asia Pacific & Korea
Fax: 1-214-509-3709 USA
Email: [email protected]
WEB: www.finisar.com/aoc.php
©2007 Finisar Corporation. All rights reserved. Finisar is a registered trademark of Finisar Corporation. Features and specifications are subject to change without notice.
9/07
Rev. C