ETC HFBR

1300 nm E-LED Transmitter
and PIN/Preamp Receiver for
Single-Mode Fiber
Technical Data
HFBR-0305 Series
Features
Transmitter
• Distances up to 14 km at
Signal Rates of 20 MBd
• Performance Specified with
Single-Mode Fiber Cables
• Wave Solder and Aqueous
Wash Process Compatible
• Panel Mount ST Connectors
• Pinout Compatible with
HFBR-0400 Series Parts
The HFBR-1315TM/1315M
single-mode fiber-optic transmitter contains a 1300 nm edgeemitting LED (E-LED) capable of
efficiently launching optical
power into single-mode fiber.
Because it is an LED, and not a
laser, the drive circuit is simple
and compatible with drive circuits
for multimode LED transmitters.
Applications
Receiver
• Single-Mode Extensions to
Ethernet (10Base-F) Links
• Proprietary Links Using
Single-Mode Fiber
The HFBR-2315T/2315M receiver
contains an InGaAs PIN
photodiode and a low-noise
transimpedance preamplifier
operating in the 1300 nm
wavelength region. The HFBR2315T/2315M receives an optical
signal and converts it to an
analog voltage. The buffered
output is an emitter-follower,
with a frequency response from
dc to typically 125 MHz.
Description
The HFBR-0305 Series is
designed to provide the most
cost-effective single-mode
solution, and is pin-compatible
with HFBR-0400 and HFBR-0300
families of 820 and 1300 nm
fiber optic links for multi-mode
fiber. This allows designers to use
a single circuit and board layout
for 820 nm multimode fiber links,
1300 nm multimode fiber links,
and 1300 nm single-mode fiber
links. Upgrading a multimode
solution to single-mode fiber is as
simple as switching components
on a board.
Package
HFBR-0305 Series transmitters
and receivers are housed in a
dual-in-line package made of high
strength, heat resistant, chemical
resistant, and UL V-0 flame
retardant plastic. The HFBR1315TM/1315M is a stainless
steel, threaded ST port (panel
mountable); the HFBR-1315M is
a stainless steel, unthreaded ST
port. The HFBR-2315T is a black,
non-conductive plastic threaded
ST port (panel mountable); the
HFBR-2315M is a stainless steel,
unthreaded ST port.
Package Options
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Transmitter:
Threaded
Unthreaded
Receiver:
Threaded
Unthreaded
Metal Port
Plastic Port
HFBR-1315TM
HFBR-1315M
N/A
N/A
N/A
HFBR-2315M
HFBR-2315T
N/A
2
ESD Handling
Precautions
The HFBR-0305 Series products
are MIL-STD 883C Method
3015.4 Class 1 devices. Normal
static precautions should be
taken in handling and assembly
of this component to prevent
damage and/or degradation which
may be induced by electrostatic
discharge (ESD)
Solder Processing
The HFBR-0305 Series products
are compatible with either hand
or wave solder processes. When
soldering, it is advisable to leave
the protective cap on the port to
keep the optics clean. Good
system performance requires
clean port optics and cable
ferrules to avoid obstructing the
optical path. Clean compressed
air is often sufficient to remove
particles of dirt; methanol on a
cotton swab also works well.
Panel Mounting of
Threaded ST Package
Style
Any standard 3/8 - 32 UNEF-2B
threaded nut and washer can be
used to secure the threaded ST
receptacle to the chassis wall,
provided the overall thickness of
the chassis wall, washer and nut
are less than 5.1 mm (0.2 inch).
Agilent supplies the HFBR-4411
kit which consists of 100 each,
nuts and washers per the figure
below.
3/8 - 32 UNEF 2B THREAD
9.53 DIA.
(0.375)
The HFBR-0305 Series package
is compatible with the following
chemicals for cleaning and
degreasing:
- Aqueous Wash
- Naptha
- Alcohol (methyl, isopropyl,
isobutyl)
- Aliphatics (hexane, heptane)
The following chemicals are not
recommended as they will
damage the package: Partially
halogenated hydrocarbons such
as 1,1,1 Trichloroethane, Ketones
such as MEK, Acetone, Chloroform, Ethyl Acetate, Methylene
Dichloride and N-methylpyroldone.
HEX-NUT
1.65
(0.065)
14.27 TYP.
(0.563) DIA.
10.41 MAX.
(0.410) DIA.
0.46
(0.018)
ALL DIMENSIONS IN MILLIMETERS AND (INCHES).
When preparing the chassis wall
for panel mounting, use the
mounting template in the figure
below. When tightening the nut,
torque should not exceed 0.8 N-m
(8.0 in-lb). Note that the maximum nut dimension exceeds the
width of the port package, so
approximately 2 mm of space
between device packages is
required to allow nuts to be
mounted on adjacent ports.
9.80
(0.386)
DIA.
8.0
(0.315)
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The HFBR-0305 Series package
is made with UL V-0 flame
retardant plastic material.
Electrostatic Discharge
(ESD)
Static discharges can occur to the
exterior of the equipment chassis
containing the HFBR-0305 Series
parts. To the extent that their
connector receptacles are
exposed to the outside of the
equipment chassis, they may be
subject to whatever ESD system
level test criteria that the
equipment is intended to meet.
Radiated Susceptibility
12.70 DIA.
(0.50)
INTERNAL TOOTH LOCK WASHER
Wash Processing Chemical Resistance
Flame Resistance
Equipment utilizing these
products will be subject to EMI
fields in some environments.
These HFBR-0305 Series products are expected to withstand
fields of up to 10 volts per meter,
when tested on a circuit card in
free space without an equipment
chassis, with no measurable
effect on their performance. A
suggested test method is based
on the equipment procedure
specified in IEC 801-3.
3
Pinout Description
Mechanical Dimensions
HFBR-1315TM/1315M
Transmitters
HFBR-2315T/2315M Receivers
All dimensions are in millimeters
and (inches)
PART NUMBER
DATE CODE
3
CATHODE
6
VCC
2
ANALOG
SIGNAL
3, 7
5.05
(0.199)
YYWW
HFBR-X31XT
6
ANODE
12.6
(0.495)
VEE
PIN 1 INDICATOR
7.05
(0.278)
29.8
(1.174)
4
5
3
6
8
1
2
7
7
2
1
8
6
3
5
4
12.6
(0.495)
PIN 1 INDICATOR
BOTTOM VIEW
BOTTOM VIEW
PINFUNCTION
1†
N.C.
2*
N.C.
3
CATHODE
N.C.
4†
5†
N.C.
6
ANODE
N.C.
7
8†
N.C.
PINFUNCTION
1†
N.C.
2
SIGNAL
3*
V EE
4†
N.C.
5†
N.C.
6
V CC
7*
V EE
8†
N.C.
* THERE IS NO PIN 2. I.E., IN THE NUMBER 2
PIN POSITION, THERE IS NO PHYSICAL PIN.
† PINS 1, 4, 5, AND 8 ARE ISOLATED FROM
THE INTERNAL CIRCUITRY, BUT ARE
ELECTRICALLY CONNECTED TO EACH OTHER
AND TO THE METAL PORT.
6.30
(0.248)
7.62
(0.300)
* PINS 3 AND 7 ARE ELECTRICALLY
CONNECTED TO THE HEADER.
3/8-32 UNEF-2A
2.54
(0.100)
3.81
(0.150)
8.31
(0.327)
10.20
(0.400)
3.60
(0.140)
† PINS 1, 4, 5, AND 8 ARE ISOLATED FROM
THE INTERNAL CIRCUITRY, BUT ARE
ELECTRICALLY CONNECTED TO EACH OTHER
(AND TO THE PORT IF METAL).
1.27
(0.050)
4
5
2 3
6
7
PINS 2,3,6,7
0.46 DIA
(0.018)
8
PINS 1,4,5,8
0.51 X 0.38
(0.020 X 0.015)
1
2.54
(0.100)
5.10
(0.202)
PIN NO. 1
INDICATOR
Recommended Operating Conditions for HFBR-0305 Series Products
Parameter
Operating Temperature - Ambient
Supply Voltage
Symbol
TA
VCC
Min.
0
4.75
Typ.
Max.
70
5.25
Unit
°C
V
Reference
Note 1
Note:
1. The HFBR-2315T/2315M signal output is referenced to VCC, and does not reject noise from the VCC power supply. Consequently,
the VCC power supply must be filtered.
Link Performance: At Data Rates 1-20 MBd
Parameter
Optical Power Budget with
Single-Mode Fiber Cables
Link Distance with SingleMode Fiber Cables
Symbol
OPB
Min.
9
14
Typ.
18
Max.
Unit
dB
Conditions
0 to 70°C
Reference
Note 1
km
0 to 70°C
Note 2
Notes:
1. Optical Power Budget applies to HFBR-1315TM/1315M and HFBR-2315T/2315M in the recommended application circuit (Figures
1 and 2). Worst case transmitter coupled power (PT) is -27 dBm peak, -30 dBm average. Worst case receiver sensitivity is -36 dBm
peak, -39 dBm average. Refer to Application Note 1082 for details.
2. Link distance is based on fiber with 0.5 dB/km attenuation, and assumes 1 dB for loss of in-line splices or connectors, and 1 dB
margin for LED aging: (9 dB OPB - 1 dB in-line splice loss - 1 dB aging margin)/(0.5 dB/km) = 14 km.
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DIA.
4
+5 V Vcc
J100
J1
JUMPER
TTL IN
J102
ENABLE IN
J103
U4D
74ACT11000
8
7
9
C14
0.1 mF
J2
JUMPER
-DIFF. IN
J104
2
3
+DIFF. IN
J105
1
+
–
U4C
74ACT11000
11
6
10
LT 1016
U3
7
8
4, 5, 6
R5
510 Ω
R6
510 Ω
C15
0.1 mF
12
5
13
4
U4B
74ACT11000
15
3
14
+
C16
10 mF
± 20%
U4A
74ACT11000
1
2
16
0V SYSTEM
COMMON
J101
6
LED
3
HFBR-1315TM/1315M
NOTES:
1. ALL RESISTORS ± 5% UNLESS
OTHERWISE SHOWN
R7
2. ALL CAPACITORS ± 10% UNLESS
OTHERWISE SHOWN
18 Ω
R9
390 Ω
Figure 1. Recommended Transmitter Circuit.
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R8
18 Ω
C17
47 pF
5
R1
10 Ω
+5 V VCC
D1
HLMP-4700
C1
0.1 mF
+
C7
C6
10 mF 10 mF
± 20% ± 20%
+
C8
0.1 mF
0 V GND
L1
4.7 mH
R2
1.2 K Ω
8
5
6
U1
HFBR-2315T/2315M
1
C2
0.01 mF
2
LINK MON CMP EN
GND
VTH ADJ
VIN –
VREF
16
C9
0.1 mF
15
2
3
1
3
7
4
4
C4
0.1 mF
C3
0.01 mF
5
6
C5
4.7 pF
7
8
NOTES:
1. C12, C13, R3, AND R4 ARE REQUIRED IF
THE TTL AND ECL OUTPUTS ARE USED
SIMULTANEOUSLY.
2. R3 AND R4 SHOULD NOT BE SMALLER
THAN 270 OHMS.
3. ALL RESISTORS ±5%.
4. ALL CAPACITORS ±10% UNLESS OTHERWISE SHOWN.
Figure 2. Recommended Receiver Circuit.
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14
13
VIN +
C TIMER
VDC
12
U2
VCC
ML4622
CF2
C10
0.047 mF
C11
0.1 mF
11
TTL OUT
CF1
ECL +
GND TTL
ECL –
10
TTL OUT
C12
0.1 mF
9
+DIFF. OUT
–DIFF. OUT
R3
R4
C13
0.1 mF
6
HFBR-1315TM/1315M - Transmitter Absolute Maximum Ratings
Parameter
Storage Temperature
Operating Temperature
Lead Soldering Cycle Temperature
Lead Soldering Cycle Time
Forward Input Current dc
Forward Input Current, Peak
Reverse Input Voltage
Symbol
TS
TA
Min.
-40
-40
Max.
85
85
260
10
100
175
2
IFDC
IFPK
VR
Unit
°C
°C
°C
sec
mA
mA
V
Condition
Note 1
1 sec pulse
Notes:
1. 2.0 mm from where leads enter case.
CAUTION: It is advised that normal static precautions be taken in handling or assembly of these components to
prevent damage and/or degradation which may be induced by ESD.
HFBR-1315TM/1315M - Transmitter Electrical/Optical Characteristics
(T A = 0°C to 70°C, I F = 100 mA unless otherwise specified)
Parameter
Forward Voltage
Symbol
VF
Forward Voltage Temperature
Coefficient
Center Emission Wavelength
Spectral Width - FWHM
∆VF /∆T
Optical Power Temperature
Coefficient
Reverse Leakage Current
∆PT /∆T
Thermal Resistance
λC
∆λ
Min.
1.1
1.0
1265
Typ.[1] Max.
1.5
1.9
2.0
-3.4
1310
95
-0.07
IR
θJA
1380
125
140
Condition
TA = 25°C
Reference
Figure 3
mV/°C
nm
nm
TA = 25°C
dB/°C
200
105
Unit
V
µA
°C/W
TA = 25°C,
VR = -2 V
Note 2
Notes:
1. Typical data are at TA = 25°C.
2. Thermal resistance is measured with the transmitter coupled to a connector assembly and mounted on a printed circuit board;
θ JC < θJA.
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7
HFBR-1315TM/1315M - Transmitter Optical Output Power and Dynamic
Characteristics
Parameter
Peak Power
Single-mode
Rise, Fall Time
(10% to 90%)
Rise, Fall Time
(10% to 90%)
Symbol
PT
Typ.[1]
-21
Min.
-23
-27
Max.
-17
-15
4.5
tr, tf
tr, tf
2.6
1.6
Unit
dBm
ns
ns
Conditions
TA
IF,peak
25°C
100 mA
0-70°C
100 mA
0-70°C
100 mA,
No Pre-bias
0-70°C
100 mA,
With Pre-bias
Reference
Note 2
Figure 4
Note 4
Figure 5
Note 4
Figure 1
180
1.6
160
1.4
RELATIVE POWER RATIO
IF – FORWARD CURRENT – mA
Notes:
1. Typical data are at TA = 25°C.
2. Optical power is measured with a large area detector at the end of 1 meter of single-mode cable, with an ST* precision ceramic
ferrule (MIL-STD-83522/13), which approximates a standard test connector.
3. When changing from µW to dBm, the optical power is referenced to 1 mW (1000 µW). Optical power
P(dBm) = 10*log[P(µW)/1000µW].
4. Optical rise and fall times are measured from 10% to 90% with single-mode fiber. The “No Pre-bias” response time is measured in
the recommended test circuit (50 ohm load, Figure 5) at 25 MHz, 50% duty cycle. The response time “With Pre-bias” is measured in
the recommended application circuit (Figure 1).
140
120
100
80
60
1.2
1.0
0.8
0.6
0.4
0.2
40
0
20
20
1.1
1.2
1.3
1.4
1.5
1.6
60
80
100
120 140
160
180
IF – FORWARD CURRENT – mA
VF – FORWARD VOLTAGE – V
Figure 3. Typical Forward Voltage
and Current Characteristics, 25°C.
40
Figure 4. Normalized Transmitter
Output Power vs. Forward Current,
25°C.
PULSE
GENERATOR
PHOTODIODE
Figure 5. Test Circuit for Measuring tr, t f Without Pre-Bias.
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8
HFBR-2315TM/2315M - Receiver Absolute Maximum Ratings
Parameter
Storage Temperature
Operating Temperature
Lead Soldering Cycle Temperature
Lead Soldering Cycle Time
Signal Pin Voltage
Supply Voltage
Output Current
Symbol
TS
TA
VO
(VCC - VEE)
IO
Min.
-55
-40
Max.
85
+85
260
10
VCC
6.0
25
-0.5
-0.5
Unit
°C
°C
°C
sec
V
V
mA
Condition
Note 1
Note 2
CAUTION: It is advised that normal static precautions be taken in handling or assembly of these components to
prevent damage and/or degradation which may be induced by ESD.
HFBR-2315T/2315M - Electrical/Optical and Dynamic Characteristics
(TA = 0°C to 70°C; 4.75 V < (VCC - VEE) < 5.25 V; power supply must be filtered per note 2)
Parameter
Responsivity, SingleMode Fiber
RMS Output Noise
Voltage
Equivalent Optical Noise
Input Power (RMS)
Peak Input Optical
Power, Single-Mode
Symbol
RP
Min.
8.5
VNO
Typ.[3]
17
0.4
PN,RMS
0.59
mVRMS
1.0
mVRMS
-45
-41.5
dBm
0.032
0.071
-14
40
µW
dBm
µW
Ω
V
PR
Output Impedance
DC Output Voltage
ZO
VO,DC
Supply Current
Electrical Bandwidth
Bandwidth * Rise Time
Electrical Rise, Fall
Times, 10-90%
Pulse-Width Distortion
ICC
BWE
0.8
Max. Unit
24 mV/µW
30
1.8
2.6
tr,f
9
125
0.41
3.3
5.3
mA
MHz
Hz * s
ns
PWD
0.4
1.0
ns
75
Overshoot
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2
15
%
Condition
λp = 1300 nm,
50 MHz
@100 MHz,
PR = 0 mW
Unfiltered Bandwidth
PR = 0 mW
@100 MHz,
PR = 0 mW
Reference
Note 4,
Figures 6, 10
Note 5
Figure 7
50 MHz, 1 ns PWD
Note 6
Figure 8
f = 50 MHz
VCC = 5 V, VEE = 0 V
PR = 0 mW
RLOAD = ∞
-3 dB electrical
PR = -21 dBm Peak,
@ 50 MHz
PR = -14 dBm, Peak,
Single-Mode Fiber
PR = -21 dBm, Peak
Note 5
Note 7
Note 8
Note 9
Figure 9
Note 10
Figure 8
Note 11
9
Notes:
1. 2.0 mm from where leads enter case.
2. The signal output is an emitter
follower, which does not reject noise
from VCC. Consequently, the power
supply must be filtered. The recommended supply is +5 V on VCC for
typical usage with +5 V ECL logic. A
-5 V supply on VEE is used for test
purposes to minimize supply noise.
3. Typical specifications are for
operation at TA = 25°C, VCC = +5
VDC, VEE = 0 V.
4. The test circuit layout should be in
accordance with good high frequency
circuit design techniques.
5. Measured with a Mini-Circuits 9-pole
“brick wall” low-pass filter, BLP-100,
with -3 dB bandwidth of 100 MHz.
6. -14 dBm is the maximum peak input
optical power from single-mode fiber
for which pulse-width distortion is
less than 1 ns.
7. Electrical bandwidth is the frequency
where the responsivity is -3 dB
(electrical) below the responsivity
measured at 50 MHz.
8. The bandwidth * risetime product is
typically 0.41 because the HFBR2315T/2315M has a second-order
bandwidth limiting characteristic.
9. The specified rise and fall times are
referenced to a fast square wave
optical source. Rise and fall times
measured using an LED optical
source with a 2.0 ns rise and fall time
(such as the HFBR-1315TM/1315M)
will be approximately 0.6 ns longer
than the specified rise and fall times.
E.g.: measured tr,f ≅ [(specified t r,f) 2
+ (test source optical tr,f )2]1/2
10. 10 ns pulse width, 50% duty cycle, at
the 50% amplitude point of the
waveform.
11. Percent overshoot is defined as:
((VPK - V100%)/V100%) x 100%. The
overshoot is typically 2% with an
input optical rise time < 1.5 ns.
HZ
150
SPECTRAL NOISE DENSITY – nV/
VCC = 0 V
6
HFBR-2315T
VO
1 GHz FET PROBE
2
500 Ω
TEST
LOAD
<
– 5 pF
3, 7
10 Ω
0.1 µF
100 pF
500 Ω
100 pF
0.1 µF
100
75
50
25
0
VEE = -5 V
VEE = -5 V
125
0
50
100
150
200
250
300
FREQUENCY – MHZ
Figure 6. HFBR-2315T/2315M Receiver Test Circuit.
6.0
1.1
1.0
2.0
1.5
1.0
0.5
5.0
NORMALIZED RESPONSE
2.5
tr, tf – RESPONSE TIME – ns
PWD – PULSE WIDTH DISTORTION – ns
3.0
Figure 7. Typical Output Spectral
Noise Density vs. Frequency.
4.0
tf
3.0
tr
2.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
1.0
-60
0
0
10
20
30
40
50
60
70
80
-20
0
20
40
60
80
100
TEMPERATURE – °C
PR – INPUT OPTICAL POWER – µW
Figure 8. Typical Pulse Width
Distortion vs. Peak Input Power.
-40
Figure 9. Typical Rise and Fall Times
vs. Temperature.
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0.1
900 1000 1100 1200 1300 1400 1500 1600 1700
λ – WAVELENGTH – nm
Figure 10. Normalized Receiver
Spectral Response.
10
6
BIAS & FILTER
CIRCUITS
VCC
POSITIVE
SUPPLY
300 pF
2
VOUT
ANALOG
SIGNAL
5.0
mA
3, 7
VEE
Figure 11. HFBR-2315T Simplified Schematic Diagram.
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NEGATIVE
SUPPLY
www.semiconductor.agilent.com
Data subject to change.
Copyright © 1999 Agilent Technologies, Inc.
Obsoletes 5964-3544E (9/95)
5964-3544E (11/99)
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