English
Language : 

HFBR-2521Z Datasheet, PDF (17/18 Pages) AVAGO TECHNOLOGIES LIMITED – Versatile Link The Versatile Fiber Optic Connection
HFBR-15X3Z Transmitter
ANODE 1
CATHODE 2
N.C. 3
N.C. 4
8 DO NOT CONNECT
5 DO NOT CONNECT
Pin #
Function
1
Anode
2
Cathode
3
Open
4
Open
5
Do not connect
8
Do not connect
Note: Pins 5 and 8 are for mounting and retaining purposes only. Do
not electrically connect these pins.
Absolute Maximum Ratings
Parameter
Storage Temperature
Operating Temperature
Lead Soldering Cycle   
             
Forward Input Current
Reverse Input Voltage
Symbol
Min.
Max.
TS
–40
+85
TA
–40
+85
Temp.
260
Time
10
IFPK
1000
IFdc 80
VBR 5
Units
°C
°C
°C
sec
mA
V
Reference
Note 1, 4
Note 2, 3
Notes:
1. 1.6 mm below seating plane.
2. Recommended operating range between 10 and 750 mA.
3. 1 µs pulse, 20 µs period.
4. Moisture sensitivity level (MSL) is 3.
All HFBR-15XXZ LED transmitters are classified as IEC 825-1 Accessible Emission Limit (AEL) Class 1 based upon the current proposed
draft scheduled to go into effect on January 1, 1997. AEL Class 1 LED devices are considered eye safe. Contact your Avago sales
representative for more information.
Transmitter Electrical/Optical Characteristics 0°C to 70°C unless otherwise specified.
For forward voltage and output power vs. drive current graphs.
Parameter
Symbol Min. Typ. Max. Units   Conditions
Transmitter Output
PT
–11.2 –5.1 dBm IFdc = 60 mA, 25°C
Optical Power
–13.6
–4.5
IFdc = 60 mA
–35.5 IFdc = 2 mA, 0-70°C
Output Optical Power
∆PT/∆T –0.85 %/°C
Temperature Coefficient
Peak Emission
λPK 660 nm
Wavelength
Forward Voltage
VF
1.45 1.67
2.02
V
IFdc = 60 mA
Forward Voltage
∆VF/∆T
–1.37 mV/°C
Temperature Coefficient
Effective Diameter
D
1
mm
Numerical Aperture
NA
0.5
Reverse Input Breakdown
VBR
5.0
11.0 V
IFdc = 10 µA,
Voltage TA = 25°C
Diode Capacitance
CO 86 pF VF = 0, f = 1 MHz
Rise Time
tr
80
ns 10% to 90%,
Fall Time
tf 40 IF = 60 mA
Ref.
Notes 3, 4
Fig. 9, 10
Fig. 18
Note 1
Note:
1. Rise and fall times are measured with a voltage pulse driving the transmitter and a series connected 50 Ω load. A wide bandwidth optical to
electrical waveform analyzer, terminated to a 50 Ω input of a wide bandwidth oscilloscope, is used for this response time measurement.
17