HFBR-2532Z Datasheet HFBR-2523Z, HFBR-0501Z, HFBR-0502Z | P13-P15

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.

HFBR-15X2Z/15X4Z Transmitters

All HFBR-15XXZ LED transmitters are classied as IEC 825-1 Accessible Emission Limit (AEL) Class 1 based upon the current proposed

draft scheduled to go into eect on January 1, 1997. AEL Class 1 LED devices are considered eye safe. Contact your Avago sales repre-

sentative for more information.

Absolute Maximum Ratings

Parameter Symbol Min. Max. Units Reference

Storage Temperature T

–40 +85 °C

Operating Temperature T

–40 +85 °C

Lead Soldering Cycle Temp. 260 °C Note 1, 4

Time 10 sec

Forward Input Current I

FPK

1000 mA Note 2, 3

Fdc

Reverse Input Voltage V

5 V

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.

Transmitter Electrical/Optical Characteristics 0 °C to 70 °C, unless otherwise specied.

For forward voltage and output power vs. drive current graphs.

Parameter Symbol Min. Typ. Max. Units Conditions Ref.

Transmitter HFBR-15X2Z P

–13.6 –4.5 dBm I

Fdc

= 60 mA

Output –11.2 –5.1 I

Fdc

= 60 mA, 25 °C

Optical HFBR-15X4Z P

–17.8 –4.5 dBm I

Fdc

= 60 mA

Power –15.5 –5.1 I

Fdc

= 60 mA, 25 °C

Output Optical Power ∆P

/∆T –0.85 %/°C

Temperature Coecient

Peak Emission Wavelength λ

660 nm

Forward Voltage V

1.45 1.67 2.02 V I

Fdc

= 60 mA

Forward Voltage ∆V

/∆T –1.37 mV/°C Fig. 11

Temperature Coecient

Eective Diameter D

1 mm

Numerical Aperture NA 0.5

Reverse Input Breakdown V

5.0 11.0 V I

Fdc

= 10 µA,

Voltage T

= 25 °C

Diode Capacitance C

86 pF V

= 0, f = 1 MHz

Rise Time t

80 ns 10% to 90%, Note 1

Fall Time t

40 ns I

= 60 mA

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.

ANODE

CATHODE

N.C.

8 DO NOT CONNECT

5 DO NOT CONNECT

Pin # Function

1 V

2 Ground

3 V

4 R

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.

HFBR-25X2Z/25X4Z Receivers

Absolute Maximum Ratings

Parameter Symbol Min. Max. Units Reference

Storage Temperature T

–40 +85 °C

Operating Temperature T

–40 +85 °C

Lead Soldering Cycle Temp. 260 °C Note 1, 3

Time 10 sec

Supply Voltage V

–0.5 7 V Note 2

Output Collector Current I

OAV

25 mA

Output Collector Power Dissipation P

40 mW

Output Voltage V

–0.5 18 V

Pull-up Voltage V

–5 V

Fan Out (TTL) N 5

Notes:

1. 1.6 mm below seating plane.

2. It is essential that a bypass capacitor 0.1 µF be connected from pin 2 to pin 3 of the receiver. Total lead length between both ends of the capacitor

and the pins should not exceed 20 mm.

3. Moisture sensitivity level (MSL) is 3.

Receiver Electrical/Optical Characteristics 0 °C to 70 °C, 4.75 V ≤V

≤5.25 V, unless otherwise specied.

Parameter Symbol Min. Typ. Max. Units Conditions Ref.

Receiver HFBR-2522Z P

R(L)

–24 dBm V

= 0 V Notes 1, 2, 3

Optical Input I

= 8 mA 4, 6

Power Level HFBR-2524Z –20

Logic 0

Optical Input Power P

R(H)

-43 dBm V

= 5.25 V

Level Logic 1 I

= ≤ 250 µA

High Level Output Current I

5 250 µA V

= 18 V, P

= 0 Notes 5, 6

Low Level Output Voltage V

0.4 0.5 V I

= 8 mA Notes 5, 6

= P

R(L)MIN

High Level Supply Current I

CCH

3.5 6.3 mA V

= 5.25 V, Notes 5, 6

= 0

Low Level Supply Current I

CCL

6.2 10 mA V

= 5.25 V, Notes 5, 6

= -12.5 dBm

Eective Diameter D 1 mm

Numerical Aperture NA 0.5

Internal Pull-up Resistor R

680 1000 1700 Ω

Notes:

1. Measured at the end of the ber optic cable with large area detector.

2. Pulsed LED operation at I

> 80 mA will cause increased link t

PLH

propagation delay time. This extended t

PLH

time contributes to increased pulse

width distortion of the receiver output signal.

3. The LED drive circuit of Figure 11 is required for 1 MBd operation of the HFBR-25X2Z/25X4Z.

4. Optical ux, P (dBm) = 10 Log [P(µW)/1000 µW].

5. R

is open.

6. Guaranteed only if optical input signal to the receiver is generated by HFBR-15x2Z/4Z, with ideal alignment to photodiode using 1 mm POF

(NA=0.5).

DO NOT CONNECT 5

DO NOT CONNECT 8

GROUND

1000 Ω

Figure 20. Typical 40 kBd interface circuit

Figure 22. Guaranteed system performance

with improved cable

Figure 21. Guaranteed system performance

with standard cable

40 kBd Link

System Performance Under recommended operating conditions, unless otherwise specied.

Parameter Symbol Min. Typ. Max. Units Conditions Ref.

Data Rate dc 40 kBd BER ≤10

-9

, PRBS: 2

- 1

Link Distance 13 41 m I

Fdc

= 2 mA Fig. 21

(Standard Cable) 94 138 m I

Fdc

= 60 mA Note 1

Link Distance 15 45 m I

Fdc

= 2 mA Fig. 22

(Improved Cable) 111 154 m I

Fdc

= 60 mA Note 1

Propagation t

PLH

4 µs R

= 3.3 kΩ, C

= 30 pF Fig. 22, 25

Delay t

PHL

2.5 µs P

= -25 dBm, 1 m ber Note 2

Pulse Width t

7 µs -39 ≤P

≤ -14 dBm Fig. 23, 24

Distortion t

PLH

-t

PHL

= 3.3 kΩ, C

= 30 pF

Notes:

1. Estimated typical link life expectancy at 40 °C exceeds 10 years at 60 mA.

2. The propagation delay for one metre of cable is typically 5 ns.

120

01020304050

I – FORWARD CURRENT (mA)

– CABLE LENGTH – METRES

HFBR-15X3Z/25X3Z

0°C–70°C

25°C

70 80 90 100

100

120

01020304050

I – FORWARD CURRENT (mA)

– CABLE LENGTH – METRES

60 70 8090 100

100

110

HFBR-15X3Z/25X3Z

0°C–70°C

25°C

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18

HFBR-2532Z

Mfr. #:

Buy HFBR-2532Z

Manufacturer:

Broadcom / Avago

Description:

Fiber Optic Transmitters, Receivers, Transceivers V-LINK VERTICAL 1MBd RCVR RoHS

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

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HFBR-2532Z

HFBR-2532Z

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