HFBR-2602Z Avago Technologies US Inc., HFBR-2602Z Datasheet - Page 5

RECEIVER FIBER OPTIC SERCOS

HFBR-2602Z

Manufacturer Part Number

HFBR-2602Z

Description

RECEIVER FIBER OPTIC SERCOS

Manufacturer

Avago Technologies US Inc.

Type

RXr

Datasheet

1.HFBR-2602Z.pdf (6 pages)

Specifications of HFBR-2602Z

Voltage - Supply

7V

Current - Supply

10mA

Function

2 MBd Fiber Optic for Serco applications, RoHs Compliant

Product

Receiver

Data Rate

2 MBd

Wavelength

650 nm

Diode Capacitance

30 pF

Maximum Output Current

25 mA

Operating Supply Voltage

- 0.5 V to 7 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting

Through Hole

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Applications

-

Power - Minimum Receivable

-

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With

Plastic Optical Fiber

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-2070

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5

Notes:

1. 2.0 mm from where leads enter case.

2. Typical data at T

3. Thermal resistance is measured with the

4. Pins 2, 6, and 7 are welded to the cathode

5. P

Figure 1. Forward voltage and current

characteristics.

transmitter coupled to a connector

assembly and fiber, and mounted on a

printed circuit board.

header connection to minimize the thermal

resistance from junction to ambient. To

further reduce the thermal resistance, the

cathode trace should be made as large as

is consistent with good RF circuit design.

at the end of 0.5 metre of plastic optical

fiber with 1 mm diameter and numerical

aperture of 0.5.

T

is measured with a large area detector

A

= +25 C.

Figure 4. Typical propagation delay through system

with 0.5 metre of cable.

6. When changing W to dBm, the optical

7. Measured at the end of 1mm plastic fiber

8. 8 mA load (5 x 1.6 mA), R

9. Propagation delay through the system is

Figure 2. Typical transmitter output vs.

forward current.

power is referenced to 1 mW (1000 W).

Optical Power P(dBm) = 10 log [P ( W)/

1000 W].

optic cable with a large area detector.

the result of several sequentially occurring

phenomena. Consequently it is a

combination of data-rate-limiting effects

and of transmission-time effects. Because

of this, the data-rate limit of the system

must be described in terms of time

differentials between delays imposed on

falling and rising edges. As the cable

L

= 560 .

Figure 5. Typical HFBR-160XZ/2602Z link

pulsewidth distortion vs. optical power.

10. Pulse width distortion is the difference

11. Both HFBR-1602Z and HFBR-1604Z meet

Figure 3. Transmitter spectrum normalized to

the peak at 25 C.

length is increased, the propagation delays

increase. Data-rate, as limited by pulse

width distortion, is not affected by

increasing cable length if the optical power

level at the receiver is maintained.

between the delay of the rising and falling

edges.

the SERCOS "low attenuation"

specifications when operated at 35 mA;

only HFBR-1604Z meets the SERCOS "high

attenuation" limits when operated at

60 mA.

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