HFBR-2116TZ Datasheet HFBR-2116TZ, HFBR-1116TZ | P7-P9

HFBR-1116TZ Transmitter Pin-Out Table

Pin Symbol Functional Description Reference

1 NC No internal connect, used for mechanical strength only

2 V

Bias output

3 GND Ground Note 3

4 GND Ground Note 3

5 GND Ground Note 3

6 GND Ground Note 3

7 OMIT No pin

8 NC No internal connect, used for mechanical strength only Note 5

9 NC No internal connect, used for mechanical strength only Note 5

10 GND Ground Note 3

11 V

Common supply voltage Note 1

12 V

Common supply voltage Note 1

13 GND Ground Note 3

14 DATA Data input Note 4

15 DATA Inverted Data input Note 4

16 NC No internal connect, used for mechanical strength only

HFBR-2116TZ Receiver Pin-Out Table

Pin Symbol Functional Description Reference

1 NC No internal connect, used for mechanical strength only

2 DATA Inverted Data input Note 4

3 DATA Data input Note 4

4 V

Common supply voltage Note 1

5 V

Common supply voltage Note 1

6 V

Common supply voltage Note 1

7 GND Ground Note 3

8 NC No internal connect, used for mechanical strength only Note 5

9 NC No internal connect, used for mechanical strength only Note 5

10 OMIT No pin

11 GND Ground Note 3

12 GND Ground Note 3

13 GND Ground Note 3

14 SD Signal Detect Note 2, 4

15 SD Inverted Signal Detect Note 2, 4

16 OMIT No pin

Notes:

1. Voltages on V

must be from the same power supply (they are connected together internally).

2. Signal Detect is a logic signal that indicates the presence or absence of an input optical signal. A logic-high, V

, on Signal Detect indicates

presence of an input optical signal. A logic-low, V

, on Signal Detect indicates an absence of input optical signal.

3. All GNDs are connected together internally and to the internal shield.

4. DATA, DATA, SD, SD are open-emitter output circuits.

5. On metal-port modules, these pins are redened as “Port Connection.”

Specications – Absolute Maximum Ratings

Parameter Symbol Min. Typ. Max. Unit Reference

Storage Temperature T

-40 100 °C

Lead Soldering Temperature T

SOLD

260 °C

Lead Soldering Time t

SOLD

10 sec.

Supply Voltage V

-0.5 7.0 V

Data Input Voltage V

-0.5 V

Dierential Input Voltage V

1.4 V Note 1

Output Current I

50 mA

Recommended Operating Conditions

Parameter Symbol Min. Typ. Max. Unit Reference

Ambient Operating Temperature T

0 70 °C

Supply Voltage V

4.5 5.5 V

Data Input Voltage – Low V

- V

-1.810 -1.475

Data Input Voltage – High V

- V

-1.165 -0.880

Data and Signal Detect Output Load R

Note 2

HFBR-1116TZ Transmitter Electrical Characteristics

= 0° C to +70° C, V

= 4.5 V to 5.5 V)

Parameter Symbol Min. Typ. Max. Unit Reference

Supply Current I

145 185 mA Note 3

Power Dissipation P

DISS

0.76 1.1

Note 5

Threshold Voltage V

- V

-1.42 -1.3 -1.24 V Note 24

Data Input Current – Low I

-350 0 μs

Data Input Current – High I

14 350 μs

HFBR-1116TZ Receiver Electrical Characteristics

= 0° C to +70° C, V

= 4.5 V to 5.5 V)

Parameter Symbol Min. Typ. Max. Unit Reference

Supply Current I

82 145 mA Note 4

Power Dissipation P

DISS

0.3 0.5

Note 5

Data Output Voltage – Low V

- V

-1.840 -1.620 V Note 6

Data Output Voltage – High V

- V

-1.045 -0.880 V Note 6

Data Output Rise Time t

0.35 2.2 ns Note 7

Data Output Fall Time t

0.35 2.2 ns Note 7

Signal Detect Output Voltage –

Low (De-asserted)

- V

-1.840 -1.620 V Note 6

Signal Detect Output Voltage –

High (Asserted)

- V

-1.045 -0.880 V Note 6

Signal Detect Output Rise Time t

0.35 2.2 ns Note 7

Signal Detect Output Fall Time t

0.35 2.2 ns Note 7

HFBR-1116TZ Transmitter Optical Characteristics

= 0° C to +70° C, V

= 4.5 V to 5.5 V)

Parameter Symbol Min. Typ. Max. Unit Reference

Output Optical Power

62.5/125 μm, NA = 0.275 ber

, BOL

, EOL

-19

-20

-14

dBm avg. Note 8

Output Optical Power

50/125 μm, NA = 0.20 ber

, BOL

, EOL

-22.5

-23.5

-14

dBm avg. Note 8

Optical Extinction Ratio 0.001

-50

0.03

-35

Note 9

Output Optical Power at Logic "O" State P

("O") -45 dBm avg. Note 10

Center Wavelength l

1270 1310 1380 nm Note 23

Figure 9

Spectral Width – FWHM

– nm RMS

∆l

137

nm RMS

Note 11, 23

Figure 9

Optical Rise Time t

0.6 1.0 3.0 ns Note 12, 23

Figure 9

Optical Fall Time t

0.6 2.1 3.0 ns Note 12, 23

Figure 9

Systematic Jitter Contributed by

the Transmitter

SJ 0.04 1.2 ns p-p Note 13

Random Jitter Contributed by

the Transmitter

RJ 0 0.52 ns p-p Note 14

HFBR-2116TZ Receiver Optical Characteristics

= 0° C to +70° C, V

= 4.5 V to 5.5 V)

Parameter Symbol Min. Typ. Max. Unit Reference

Input Optical Power

Minimum at Window Edge

Min. (W) -31 dBm avg. Note 15,

Figure 10

Input Optical Power

Minimum at Eye Center

Min. (C) -31 dBm avg. Note 16,

Figure 10

Input Optical Power Maximum P

Max. -14 dBm avg. Note 15

Operating Wavelength

1260 1360 nm

Systematic Jitter Contributed by

the Receiver

SJ 0.2 1.2 ns p-p Note 17

Random Jitter Contributed by

the Receiver

RJ 1 1.91 ns p-p Note 18

Signal Detect – Asserted P

+1.5 dB -31 dBm avg. Note 19

Signal Detect – De-asserted P

-45 dBm avg. Note 20

Signal Detect – Hysteresis P

– P

1.5 dB

Signal Detect – Asserted Time (o to on) t

SDA

0 55 100 μs Note 21

Signal Detect – De-asserted Time (on to o) t

SDD

0 110 350 μs Note 22

P1-P3 P4-P6 P7-P9 P10-P10

HFBR-2116TZ

Mfr. #:

Buy HFBR-2116TZ

Manufacturer:

Broadcom / Avago

Description:

Fiber Optic Transmitters, Receivers, Transceivers 1300nm 155M 16pin DI P ST Rx Pbfree

Lifecycle:

New from this manufacturer.

Delivery:

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HFBR-2116TZ

HFBR-2116TZ

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