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HFBR-1534

Versatile Link The Versatile Fiber Optic Connection

HP => Agilent Technologies 

13

HFBR-15X2/15X4 Transmitters

ANODE 1

CATHODE 2

N.C. 3

N.C. 4

8 DO NOT CONNECT

5 DO NOT CONNECT

Pin #

1

2

3

4

5

8

Function

Anode

Cathode

Open

Open

Do not connect

Do not connect

Absolute Maximum Ratings

Note: Pins 5 and 8 are for mounting and

retaining purposes only. Do not

electrically connect these pins.

Parameter

Storage Temperature

Operating Temperature

Lead Soldering Cycle

Forward Input Current

Temp.

Time

Reverse Input Voltage

Symbol

TS

TA

IFPK

IFdc

VBR

Min.

–40

–40

Max.

+85

+85

260

10

1000

80

5

Units

°C

°C

°C

sec

mA

V

Reference

Note 1

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.

All HFBR-15XX 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 Agilent 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

Transmitter HFBR-15X2

Output

Optical

Power

HFBR-15X4

Output Optical Power

Temperature Coefficient

Peak Emission Wavelength

Forward Voltage

Forward Voltage

Temperature Coefficient

Effective Diameter

Numerical Aperture

Reverse Input Breakdown

Voltage

Diode Capacitance

Rise Time

Fall Time

Symbol

PT

PT

∆PT/∆ T

λPK

VF

∆VF/∆T

DT

NA

VBR

CO

tr

tf

Min.

–13.6

–11.2

–17.8

–15.5

Typ.

–0.85

660

1.45 1.67

–1.37

1

0.5

5.0 11.0

86

80

40

Max.

–4.5

–5.1

–4.5

–5.1

Units

dBm

dBm

%/°C

Conditions

IFdc = 60 mA

IFdc = 60 mA, 25°C

IFdc = 60 mA

IFdc = 60 mA, 25°C

2.02

nm

V

mV/°C

IFdc = 60 mA

mm

V IFdc = 10 µA,

TA = 25°C

pF VF = 0, f = 1 MHz

ns 10% to 90%,

ns IF = 60 mA

Ref.

Fig. 11

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.

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