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DISCRETE SEMICONDUCTORS
DATA SH EET
andbook, halfpage
M3D112
BGE887BO
Optical receiver module
Product specification
Supersedes data of 1997 Nov 24
File under Discrete Semiconductors, SC16
1998 Mar 13
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Philips Semiconductors Product specification
Optical receiver module BGE887BO
FEATURES
• Excellent linearity
• Extremely 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 11 − dB
optical input return losses 45 − dB
d
2
second order distortion f = 324.25 MHz −−70 dBc
F equivalent noise input f = 40 MHz − 7 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.
1998 Mar 13 2
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Philips Semiconductors Product specification
Optical receiver module BGE887BO
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; ZS=ZL=75Ω
B
SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT
S responsivity λ = 1300 nm 800 − V/W
V
pin 1
pin 1 monitor voltage λ = 1300 nm 0.75 1 V/mW
FL flatness of frequency response −±0.5 dB
S
22
output return losses f = 40 to 860 MHz 11 − dB
optical input return losses 45 − dB
d
2
d
3
second order distortion note 1 −−70 dB
third order distortion note 2 −−80 dB
F equivalent noise input f = 40 MHz − 7 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) note 3 175 205 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.
handbook, halfpage
Pin 1
10 kΩ
photo
current
2. Three laser test; each laser with 40% modulation
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. The module normally operates atVB= 24 V but is able
to withstand supply transients up to 30 V.
Fig.2 Monitor current pin.
1998 Mar 13 3