AGILENT HFBR

Fiber Optic Transmitters and
Receivers for SERCOS, PROFIBUS
and INTERBUS-S Applications
Technical Data
Features
Description
• Meets Industrial SERCOS,
PROFIBUS, and INTERBUS-S
Standard
• SMA and ST ® Ports
• 650 nm Wavelength
Technology
• Specified for Use with 1 mm
Plastic Optical Fiber and 200
µm Hard Clad Silica
• Auto-Insertable and Wave
Solderable
• DC – 10 MBd Data Rate
• Industrial Control Data
Links
• Factory Automation Data
Links
• Voltage Isolation
Applications
• PLCs
• Motor Drives
• Sensor, Meter and Actuator
Interfaces
SERCOS
SERCOS, an acronym for SErial
Realtime COmmunications
System, is a standard digital
interface for communication in
industrial CNC applications.
SERCOS is a European
(EN 61491) and international
standard (IEC 61491). The
optical interface allows data rates
of 2, 4, 8, and 16 MBd and data
transfer between numerical
controls and drives via fiber-optic
rings, with voltage isolation and
noise immunity. The HFBR1505A and HFBR-2505A
products comply with SERCOS
specifications for optical
characteristics and connector
style, and have guaranteed
performance up to 10 MBd.
(Typically the 16 MBd required
by SERCOS is possible as well
but please contact Agilent
regarding the plan for the
16 MBd device.)
ST® is a registered trademark of AT&T.
HCS® is a registered trademark of
SpecTran Corporation.
PROFIBUS
PROFIBUS, an acronym of
PROcess FIeld BUS, is an open
fieldbus standard defined for data
rates ranging from 9.6 kBd to
12 MBd in selectable steps for
wire and optical fiber. PROFIBUS
is a German national DIN 19245
standard and a European
CENELEC standard EN 50170.
The ST ® connector is the
Applications
HFBR-1505A/2505A
(SMA Tx/Rx for SERCOS)
HFBR-1515B/2515B
(ST® Tx/Rx for PROFIBUS)
HFBR-1505C/2505C
(SMA Tx/Rx for INTERBUS-S)
recommended optical port of the
PROFIBUS optical fiber version
but other connectors are allowed
as well. The HFBR-1515B and
HFBR-2515B comply fully to the
technical guideline using Plastic
Optical Fiber up to 6 MBd, and
have a guaranteed performance at
data rates up to 10 MBd.
(Typically the 12 MBd is possible
as well, but please contact Agilent
regarding the plan for the 12 MBd
device.)
INTERBUS-S
INTERBUS-S, a special open
Sensor/Actuator Bus, is finding a
broad acceptance in the factory
automation industry. The HFBR1505C and HFBR-2505C were
specially designed for this
application and can be used with
1 mm POF and 200 µm HCS fiber
at the specified data rates of
500 kBd and 2 MBd. The optical
transmission guideline is a
supplement of the German
National DIN E 19258 standard
draft. On the European level,
2
prEN 50254 is the draft of the
INTERBUS-S fieldbus.
insertion and wave soldering so it
is ideal for high volume
production applications.
Package Information
All HFBR-X5X5X series
transmitters and receivers are
housed in a low-cost, dual-in-line
package that is made of high
strength, heat resistant,
chemically resistant and UL 94
V-O (UL file # E121562) flame
retardant plastic. The
transmitters are easily identified
by the light grey colored
connector port. The receivers are
easily identified by the dark grey
colored connector port. The
package is designed for auto-
Handling and Design
Information
When soldering, it is advisable to
leave the protective cap on the
unit to keep the optics clean.
Good system performance
requires clean port optics and
cable ferrules to avoid
obstructing the optical path.
Clean compressed air often is
sufficient to remove particles of
dirt; methanol on a cotton swab
also works well.
Recommended Chemicals for
Cleaning/Degreasing X5X5X
Products
Alcohols: methyl, isopropyl, isobutyl.
Aliphatics: hexane, heptane.
Other: soap solution, naphtha.
Do not use partially halogenated
hydrocarbons such as
1,1,1 trichloroethane, ketones
such as MEK, acetone,
chloroform, ethyl acetate,
methylene dichloride, phenol,
methylene chloride or
N-methylpyrolldone. Also, Agilent
does not recommend the use of
cleaners that use halogenated
hydrocarbons because of their
potential environmental harm.
CAUTION: The small junction size inherent in the design of these components increases the
components’ susceptibility to damage from electrostatic discharge (ESD). It is advised that
normal static precautions be taken in handling and assembly of these components to prevent
damage and/or degradation which may be induced by ESD.
Specified Link Performance
0˚C to +70˚C unless otherwise noted.
Parameter
Symbol
Min.
Max.
Unit
Condition
Reference
Link Distance with
HFBR-1505A/2505A or
HFBR-1515B/2515B
1
0.1
0.1
40
200
m
m
POF
HCS®
Notes 1,2,3,4,6
Notes 1,2,3,5,6
Link Distance with
HFBR-1505C/2505C
1
0.1
0.1
50
400
m
m
POF
HCS®
Notes 1,2,3,4,7
Notes 1,2,3,5,7
Pulse Width Distortion
with HFBR-1505A/2505A
or HFBR-1515B/2515B
PWD
–30
+30
ns
25% to 75%
duty cycle
Note 1
Pulse Width Distortion
with HFBR-1505C/2505C
PWD
–125
+125
ns
arbitrary duty cycle
Note 1
Notes:
1. With recommended Tx and Rx circuits (60 mA nominal drive current).
2. POF HFBR-Exxyyy 0.23 dB/m worst case attentuation.
3. HCS® 10 dB/km worst case attenuation.
4. Including a 3 dB optical safety margin accounting for link service lifetime.
5. Including a 2 dB optical safety margin accounting for link service lifetime.
6. Signaling rate DC to 10 MBd.
7. Signaling rate DC to 2 MBd.
3
HFBR-15X5X
Transmitters
plastic optical fiber (POF) and
Hard Clad Silica (HCS ®). This
transmitter can be operated up to
10 MBd using a simple driver
circuit. The HFBR-1505X is
compatible with SMA connectors,
while the HFBR-1515X mates
with ST® connectors.
The HFBR-15X5X transmitter
incorporates a 650 nm LED in a
light gray nonconductive plastic
housing. The high light output
power enables the use of both
4
5
6
7
1
8
BOTTOM VIEW,
HFBR-15x5x
SEE NOTE 10
PIN
FUNCTION
1
4
5
6
7
8
CONNECTED TO PIN 4
CONNECTED TO PIN 1
GND
GND
CATHODE
ANODE
Absolute Maximum Ratings
Parameter
Symbol
Min.
Max.
Unit
Storage and Operating Temperature
TS,O
–40
85
˚C
Peak Forward Input Current
IF,PK
90
mA
Average Forward Input Current
IF,AVG
60
mA
VR
3
V
TSOL
260
˚C
10
s
Reverse Input Voltage
Lead Soldering Cycle
Temp
Time
Reference
Note 6
Note 7
Electrical/Optical Characteristics
0˚C to +70˚C unless otherwise noted.
Parameter
Optical Power
Temperature
Coefficient
Symbol
Min.
∆PT/∆T
Forward Voltage
VF
Forward Voltage
Temperature
Coefficient
∆VF/∆T
Typ. [1]
Max.
–0.02
1.8
2.1
Unit
Condition
Ref.
IF, dc = 60 mA
Fig. 1
dB/˚C
2.65
V
–1.8
mV/˚C
V
Fig. 1
IF, dc = –10 µA
Breakdown Voltage
VBR
3.0
13
Peak Emission
Wavelength
λPK
640
650
660
nm
Fig. 3
FWHM
21
30
nm
Fig. 3
Diode Capacitance
CO
60
pF
Thermal Resistance
θJC
140
˚C/W
Rise Time (10% to 90%)
tr
13
ns
10% to 90%,
Fall Time (90% to 10%)
tf
10
ns
IF = 60 mA
Full Width Half Max
VF = 0 V, f = 1 MHz
Notes 4,5
EYE SAFETY: The HFBR-15x5x is a Class 1 LED Product and eye safe when used within the data
sheet limits and under normal operating conditions. This includes all reasonably foreseeable
single fault conditions per IEC60825-1 and amendments.
4
Peak Output Power
0˚C to +70˚C unless otherwise noted.
Model Number
Symbol
Min.
Max.
Unit
PT
–10.5
–5.5
dBm
–7.5
HFBR-1505A
Condition
Reference
POF, IF, dc = 35 mA
Notes 2,3,11
–3.5
POF, IF, dc = 60 mA
Figure 2
–18.0
–10
HCS®, IF, dc = 60 mA
HFBR-1515B
–10.5
–5.5
POF, IF, dc = 35 mA
Notes 2,3,11
PROFIBUS
–7.5
–3.5
POF, IF, dc = 60 mA
Figure 2
–18.0
–8.5
HCS®, IF, dc = 60 mA
HFBR-1505C
–6.2
0.0
POF, IF, dc = 60 mA
INTERBUS-S
–16.9
–8.5
HCS®, IF, dc = 60 mA
SERCOS
Notes 3,8,9
Figure 2
-40 °C
0 °C
25 °C
2.3
70 °C
2.1
1.9
85 °C
1.7
1.5
1
10
100
IF,DO – TRANSMITTER DRIVE CURRENT – mA
Figure 1. Typical Forward Voltage vs.
Drive Current.
10
-40 °C
0
25 °C
-10
85 °C
-20
-30
-40
1
10
100
IF,DO – TRANSMITTER DRIVE CURRENT – mA
Figure 2. Typical Normalized Optical
Power vs. Drive Current.
NORMALIZED SPECTRAL OUTPUT POWER
VF – FORWARD VOLTAGE – V
2.5
PT – NORMALIZED OUTPUT POWER – dB
Notes:
1. Typical data at 25˚C.
2. Optical power measured at the end of 0.5 meters of 1 mm diameter plastic optical fiber with a large area detector.
3. Minimum and maximum values for PT over temperature are based on a fixed drive current. The recommended drive circuit has
temperature compensation which reduces the variation in PT over temperature, refer to Figures 4 and 6.
4. Thermal resistance is measured with the transmitter coupled to a connector assembly and fiber, and mounted on a printed circuit
board.
5. To further reduce the thermal resistance, the cathode trace should be made as large as is consistent with good RF circuit design.
6. For IF,PK > 60 mA, the duty factor must maintain IF,AVG ≤ 60 mA and pulse width ≤ 1 µs.
7. 1.6 mm below seating plane.
8. Minimum peak output power at 25˚C is –5.3 dBm (POF) and –16.0 dBm (HCS®) for 1505C series only.
9. Optical power measured at the end of 1 meter of 1 mm diameter plastic or 200 µm hard clad silica optical fiber with a large area
detector.
10. Pins 1 and 4 are for mounting and retaining purposes, but are electrically connected; pins 5 and 6 are electrically isolated. It is
recommended that pins 1, 4, 5, and 6 all be connected to ground to reduce coupling of electrical noise.
11. Output power with 200 µm hard clad silica optical fiber assumes a typical –10.5 dB difference compared to 1 mm plastic optical
fiber.
-40 °C
1.4
1.2
0 °C
1.0
25 °C
0.8
70 °C
0.6
85 °C
0.4
0.2
0
610
630
650
670
690
WAVELENGTH – nm
Figure 3. Typical Normalized Optical
Spectra.
5
2
VCC = 5.25 V
1
1.1
VCC = 5.25 V
VCC = 5.0 V
0
1.0
VCC = 5.0 V
PWD – ns
NORMALIZED OUTPUT POWER
1.2
0.9
-1
-2
VCC = 4.75 V
-3
VCC = 4.75 V
0.8
-4
0.7
-40
-20
0
20
40
60
-5
-40
80
TEMPERATURE – °C
-20
0
20
40
60
80
TEMPERATURE – °C
Figure 4. Typical Normalized Optical
Power vs. Temperature (in
Recommended Drive Circuit).
Figure 5. Typical Optical Pulse Width
Distortion vs. Temperature and
Power Supply Voltage (in
Recommended Drive Circuit).
Recommended Drive Circuit for HFBR-x505A/x515B
TTL COMPATIBLE TRANSMITTER
TTL COMPATIBLE RECEIVER
+5 V VCC
C1
10 µF
+
R2
2.7
R1
C2
0.1 µF
1
8
7
6
5
4
8
U3
HFBR-25X5
+5 V VCC
4
5
6
7
8
C4
0.1 µF
0V
1
TTL OUTPUT
3
U1
DS75451
1
2
U2
HFBR-15X5
TTL INPUT
4
0V
R1
IF
82.5 Ω
35 mA
47 Ω
60 mA
Figure 6. Recommended Transmitter and Receiver Drive Circuit (IF, on = 35 mA or 60 mA Nominal at TA = 25˚C).
6
HFBR-25x5A/B Receivers
The HFBR-25x5A/B receiver
consists of a silicon PIN
photodiode and digitizing IC to
produce a logic compatible
output. The IC includes a unique
circuit to correct the pulse width
distortion of the first bit after a
long idle period. This enables
operation from DC to 10 MBd
with low PWD for arbitrary data
patterns. The receiver output is a
“push–pull” stage compatible with
TTL and CMOS logic. The
receiver housing is a dark grey,
conductive plastic. The
HFBR-2505A is compatible with
SMA connectors, while the
HFBR-2515B mates with ST®
connectors.
4
5
6
7
1
8
BOTTOM VIEW,
HFBR 25x5A/B
SEE NOTE 4
PIN
FUNCTION
1
4
5
6
7
8
CONNECTED TO PIN 4
CONNECTED TO PIN 1
NO CONNECT
VCC
GND
VO
Absolute Maximum Ratings
Parameter
Symbol
Min.
Max.
Unit
Storage and Operating Temperature
TS
–40
85
˚C
VCC
–0.5
+5.5
V
IO,AVG
–16
+16
mA
80
mW
Temp
260
˚C
Time
10
s
Supply Voltage
Average Output Current
Output Power Dissipation
Lead Soldering Cycle
POD
Reference
Note 2
Electrical/Optical Characteristics
0˚C to +70˚C, 4.75 V < VCC < 5.25 V, VP–P Noise ≤ 100 mV unless otherwise noted.
Parameter
Symbol
Min.
Typ.[1]
Max.
Unit
Condition
Ref.
–42
–44
dBm
1mm POF
200 µm HCS®
Notes 3,5
–0
–2
dBm
1 mm POF,
200 µm HCS®
|PWD| < 30 ns
Note 3
Figs. 7,8,
9,10
45
mA
VO = Open
V
IO = –40 µA
Peak Input Power
Level Logic HIGH
PRH
Peak Input Power
Level Logic LOW
P RL
Supply Current
ICC
High Level Output
Voltage
VOH
Low Level Output
Voltage
VOH
0.22
0.4
V
IO = +1.6 mA
Output Rise Time
tr
12
30
ns
C L = 10 pF
Note 3
Output Fall Time
tf
10
30
ns
CL = 10 pF
Note 3
–20
–22
27
4.2
4.7
Notes:
1. Typical data are at 25˚C, V CC = 5.0 V.
2. 1.6 mm below seating plane.
3. In recommended receiver circuit, with an optical signal from the recommended transmitter circuit.
4. Pins 1 and 4 are electrically connected to the conductive housing and are also used for mounting and retaining purposes. It is
required that pin 1 and 4 be connected to ground to maintain conductive housing shield effectiveness.
5. BER ≤ 10E-9, includes a 10.8 dB margin below the receiver switching threshold level (signal to noise ratio = 12).
7
6
30
VCC = 5.0 V
5
20
RECEIVED PWD – ns
RECEIVED POWER – dBm
VCC = 5.25 V
4
3
VCC = 4.75 V
2
1
0
-40
10
0
-10
-20
-20
0
20
40
60
80
-30
-22
100
TEMPERATURE – °C
-18
-14
-10
-5
-2
2
PPL – RECEIVER OPTICAL INPUT POWER – dBm
Figure 7. Typical POF Receiver
Overdrive PRL,max at 10 MBd vs.
Temperature and Power Supply Voltage.
Figure 8. Typical POF Receiver Pulse Width
Distortion vs. Optical Power at 10 MBd.
-13
16
15
-14
PWD – ns
PWD – ns
14
13
12
-15
-16
11
-17
10
9
4.7 4.8 4.9 5.0 5.1 5.2 5.3 5.4 5.5
VCC – VOLTS
Figure 9. Typical POF Receiver Pulse Width
Distortion vs. Power Supply Voltage at High
Optical Power, (0 dBm, 10 MBd).
-18
4.7 4.8 4.9 5.0 5.1 5.2 5.3 5.4 5.5
VCC – VOLTS
Figure 10. Typical POF Receiver Pulse Width
Distortion vs. Power Supply Voltage at Low
Optical Power, (-21 dBm, 10 MBd).
8
HFBR-2505C Receiver
The HFBR-2505C receiver
includes a monolithic DC
coupled, digital IC receiver with
open collector Schottky output
transistor. An internal pullup
resistor to VCC is available at
pin 5. The receiver housing is a
dark gray conductive plastic and
the optical port is compatible
with SMA connectors. The specified signal rate of HFBR-2505C
is 2 MBd.
4
5
6
7
1
8
BOTTOM VIEW,
HFBR 2505C
SEE NOTE 3
PIN
FUNCTION
1
4
5
6
7
8
CONNECTED TO PIN 4
CONNECTED TO PIN 1
RL
VCC
GND
VO
Absolute Maximum Ratings
Parameter
Storage & Operating Temperatures
Lead Soldering Cycle
Temp.
Time
Supply Voltage
Output Collector Current
Output Collector Power Dissipation
Output Voltage
Pull-up Voltage
Fan Out (TTL)
Symbol
T S, O
VCC
IOAV
POD
VO
VP
N
Min.
–40
–0.5
–0.5
–5
Max.
+85
260
10
7
25
40
18
VCC
5
Units
°C
°C
sec
V
mA
mW
V
V
Reference
Note 1
Note 2
Notes:
1. 1.6 mm below seating plane.
2. It is essential that a bypass capacitor 0.1 µF be connected from pin 6 to pin 7 of the receiver. Total lead length between both ends
of the capacitor and the pins should not exceed 20 mm.
3. Pins 1 and 4 are electrically connected to the conductive housing and are also used for mounting and retaining purposes. It is
required that pin 1 and 4 be connected to ground to maintain conductive housing shield effectiveness.
9
Receiver Electrical/Optical Characteristics
0°C to 70°C, 4.75 V ≤ VCC ≤ 5.25 V unless otherwise specified
Parameter
Symbol
Min.
Typ.
Max.
Input Optical Power
PR(L)
–21.6
–2.0
Level for Logic “0”
Units
dBm
–23.0
Input Optical Power
Level for Logic “1”
High Level Output Current
Low Level Output Current
PR(H)
–43
dBm
IOH
VOL
5
0.4
250
0.5
µA
V
High Level Supply
Current
Low Level Supply Current
ICCH
3.5
6.3
mA
ICCL
6.2
10
mA
Effective Diameter
Numerical Aperture
Internal Pull-up Resistor
D
NA
RL
1
0.5
1000
680
Conditions
VOL = 0.5 V
IOL = 8 mA
1 mm POF
VOL = 0.5 V
IOL = 8 mA
200 µm HCS
VOL = 5.25 V
IOH ≤ 250 µA
VO = 18 V, PR = 0
IOL = 8 mA,
PR = PR(L)MIN
VCC = 5.25 V,
PR = 0
VCC = 5.25 V
PR = -12.5 dBm
Ref.
Notes 1,
2
Note 1
Note 3
Note 3
Note 3
Note 3
mm
1700
Ω
Notes:
1. Optical flux, P (dBm) = 10 Log [P (µW)/1000 µW].
2. Measured at the end of the fiber optic cable with large area detector.
3. RL is open.
TTL COMPATIBLE TRANSMITTER
TTL COMPATIBLE RECEIVER
+5 V VCC
IF
C1
10 µF
+
R1 = (VCC – VF) / IF
R1
C2
0.1 µF
1
VF
8
7
6
5
5
6
7
8
4
HFBR-1505C
HFBR-2505C
8
1
2
+5 V VCC
4
C4
0.1 µF
0V
1
TTL OUTPUT
3
U1
DS75451
TTL INPUT
4
0V
Figure 11. Typical Interface Circuit.
R1
IF
82.5 Ω
35 mA
47 Ω
60 mA
10
Mechanical Dimensions
HFBR-X515X
YYWW
HFBR-XXXX
21.2
(0.83)
12.5
(0.49)
7.0
(0.28)
DATE
CODE
PART NUMBER
7.6
(0.30)
4.8
(0.19)
6.3
(0.25)
∅
1.5
(0.06)
1.3
(0.05)
1.0
(0.04)
5.1
(0.20)
3.6
(0.140)
1.3
(0.050)
3.8
(0.150)
2.8
(0.11)
PINS 1, 4 ARE 0.6 (0.025) DIA.
4
1.3
(0.05)
2.5
(0.10)
5
6
7
1
8
PINS 5, 6, 7, 8 ARE 0.5 (0.020) X 0.25 (0.01)
16.1
(0.63)
YYWW
HFBR-XXXX
HFBR-X505X
12.5
(0.49)
DATE
CODE
PART NUMBER
7.6
(0.30)
1/4 - 36 UNS 2A THREAD
6.3
(0.25)
6.4
DIA.
(0.250)
1.3
(0.05)
1.0
(0.04)
3.6
(0.140)
1.3
(0.050)
3.8
(0.150)
5.1
(0.20)
2.8
(0.11)
PINS 1, 4 ARE 0.6 (0.025) DIA.
4
5
6
7
1
8
PINS 5, 6, 7, 8 ARE 0.5 (0.020) X 0.25 (0.01)
2.5
(0.10)
www.agilent.com/semiconductors
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distributors, please go to our web site.
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Data subject to change.
Copyright © 2002 Agilent Technologies, Inc.
Obsoletes 5988-1764EN
February 11, 2002
5988-5299EN