HFBR-0537 Avago Technologies US Inc., HFBR-0537 Datasheet - Page 10

HFBR-0537

Manufacturer Part Number

HFBR-0537

Description

Fiber Optics, Evaluation Kit

Manufacturer

Avago Technologies US Inc.

Datasheets

1.HFBR-2526.pdf (12 pages)

2.HFBR-0536.pdf (12 pages)

Specifications of HFBR-0537

Tool / Board Applications

Fiber Optic Transceivers

Mcu Supported Families

HFBR-1527, HFBR-2526

Development Tool Type

Hardware / Software - Eval/Demo Board

Main Purpose

Interface, Fiber Optics

Embedded

Utilized Ic / Part

HFBR-1527, HFBR-2526

Primary Attributes

DC ~ 32MBd TTL

Secondary Attributes

TTL-Compatible

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-2146
HFBR-0537

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Electrical/Optical Characteristics

(see Figure 1, Note 2).

Notes:

10. If there is no input optical power to the receiver (no transmitted signal) electrical noise can result in false triggering of the receiver.

1. 1.6 mm below seating plane.

2. The signal output is an emitter follower, which does not reject noise in the power supply. The power supply must be filtered as in

3. Typical data are at 25°C and V

4. Pin 1 should be ac coupled to a load ≥ 510 Ω with load capacitance less than 5 pF.

5. Measured with a 3 pole Bessel filter with a 75 MHz, -3dB bandwidth.

6. The maximum Peak Input Optical Power is the level at which the Pulse Width Distortion is guaranteed to be less than the PWD listed

7. 10 ns pulse width, 50% duty cycle, at the 50% amplitude point of the waveform.

8. Percent overshoot is defined at:

9. Pins 5 and 8 are primarily for mounting and retaining purposes, but are electrically connected. It is recommended that these pins be

AC Responsivity 1 mm POF

AC Responsivity 200 µm HCS

RMS Output Noise

Equivalent Optical Noise Input

Power, RMS - 1 mm POF

Equivalent Optical Noise Input

Power, RMS - 200 µm HCS

Peak Input Optical Power -

1 mm POF

Peak Input Optical Power -

200 µm HCS

Output Impedance

DC Output Voltage

Supply Current

Electrical Bandwidth

Bandwidth * Rise Time

Electrical Rise Time, 10-90%

Electrical Fall Time, 90-10%

Pulse Width Distortion

Overshoot

Figure 1.

under Test Condition. P

designing links up to 125 MBd (for both POF and HCS input conditions).

connected to ground to reduce coupling of electrical noise.

In typical applications, data encoding and error detection prevent random triggering from being interpreted as valid data. Refer to

Application Note 1066 for design guidelines.

Parameter

R,Max

is given for PWD = 5 ns for designing links at ≤ 50 MBd operation, and also for PWD = 2 ns for

= +5 Vdc.

Symbol

PWD

N,RMS

P,HCS

P,APF

0 to 70°C; 5.25 V ≥ V

Min.

–––––––––––– × 100%

1.7

4.5

0.8

- V

100%

Typ.

0.46

0.41

- 39

125

-42

3.9

7.9

1.8

3.3

0.4

)

Max.

11.5

0.69

-5.8

-6.4

-8.8

-9.4

-36

6.5

-40

2.6

6.3

1.0

≥ 4.75 V; power supply must be filtered

mV/µW

Hz * s

Unit

dBm

MHz

Ω

RMS

Test Condition

-3 dB electrical

5 ns PWD

2 ns PWD

5 ns PWD

2 ns PWD

= -10 dBm

650 nm

50 MHz

= 0 µW

peak

Note 7

Note 8

Note 4

Note 5

Note 6

Note 4

Note

HFBR-0537 Avago Technologies US Inc., HFBR-0537 Datasheet - Page 10

HFBR-0537

Specifications of HFBR-0537

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