Philips BGE883BO Datasheet

DISCRETE SEMICONDUCTORS

DATA SH EET

ook, halfpage

M3D112

BGE883BO

Optical receiver module

Product specification
Supersedes data of 1998 Oct 01

1999 Mar 30

Philips Semiconductors Product specification

Optical receiver module BGE883BO

FEATURES

• Excellent linearity

• Low noise

• Excellent flatness

• Standard CATV outline

• Rugged construction

• Gold metallization ensures excellent reliability.

APPLICATIONS

• CATV systems operating in the 40 to 860 MHz
frequency range.

DESCRIPTION

Hybrid high dynamic range optical receiver module in a
SOT115U package operating at a voltage supply of 24 V
(DC). The module contains a monomode optical input
suitable for wavelengths from 1290 to 1600 nm, a terminal
to monitor the pin diode current and an electrical output
with an impedance of 75 Ω.

PINNING - SOT115U

PIN DESCRIPTION

1 monitor current
2 common
3 common
5+V

B

7 common
8 common
9 output

handbook, halfpage

Side view

2

789

351

Fig.1 Simplified outline.

MLB162

QUICK REFERENCE DATA

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

f frequency range 40 860 MHz
S

22

output return losses f = 40 to 860 MHz 17 − dB
optical input return losses 45 − dB

d

2

second order distortion f = 324.25 MHz −−76 dBc
F equivalent noise input f = 40 to 860 MHz − 13 pA/√Hz
I

tot

total current consumption (DC) VB= 24 V 175 205 mA

HANDLING

Fibreglass optical coupling: maximum tensile strength = 5 N; minimum bending radius = 35 mm.

CAUTION

This product is supplied in anti-static packing to prevent damage caused by electrostatic discharge during transport
and handling. For further information, refer to Philips specs.: SNW-EQ-608, SNW-FQ-302A and SNW-FQ-302B.

1999 Mar 30 2

Philips Semiconductors Product specification

Optical receiver module BGE883BO

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134).

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

f frequency range 40 860 MHz
T

stg

T

mb

P

in

ESD ESD sensitivity human body model;

CHARACTERISTICS

storage temperature −40 +85 °C
operating mounting base temperature −20 +85 °C
optical input power continuous − 5mW

500 − V

R = 1.5 kΩ; C = 100 pF

Table 1 Bandwidth 40 to 860 MHz; V

= 24 V; Tmb=30°C; ZL=75Ω

B

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

S responsivity λ = 1300 nm 400 − V/W
FL flatness of frequency response −±0.5 dB
S

22

output return losses f = 40 to 860 MHz 17 − dB
optical input return losses 45 − dB

d

2

d

3

second order distortion note 1 −−76 dB
third order distortion note 2 −−92 dB

note 3 −−80 dB
F equivalent noise input f = 40 MHz to 860 MHz − 13 pA/√Hz
s

λ

spectral sensitivity λ = 1310 ±20 nm 0.85 − A/W

λ = 1550 ±20 nm 0.9 − A/W
λ optical wavelength 1290 1600 nm

L length of optical fibre fibre; SM type; 9/125 µm1−m
I

tot

total current consumption (DC) VB= 24 V 175 205 mA

Notes

1. Two laser test; each laser with 40% modulation index;
fp= 135 MHz; Pp= 0.5 mW;
fq= 189.25 MHz; Pq= 0.5 mW;
measured at fp+fq= 324.25 MHz.

2. Three laser test; each laser with 40% modulation

handbook, halfpage

Pin 1

10 kΩ

photo

current

index;
fp= 326.25 MHz; Pp= 0.33 mW;

1 kΩ

fq= 333.25 MHz; Pq= 0.33 mW;
fr= 335.25 MHz; Pr= 0.33 mW;
measured at fp+fq−fr= 324.25 MHz.

MLB151

3. Three laser test; each laser with 50% modulation
index;
fp= 326.25 MHz; Pp= 0.53 mW;

Fig.2 Monitor current pin.

fq= 333.25 MHz; Pq= 0.53 mW;
fr= 335.25 MHz; Pr= 0.53 mW;
measured at fp+fq−fr= 324.25 MHz.

1999 Mar 30 3